GIT_SILENT Upgrade ECM and KF version requirements for 5.93.0 release.

- Fix parasite "gimp-comment" not set due to null QImage
- Support to parasite "icc-profile" using Qt 5.14+ API
- Added parasite "gimp-image-metadata" as QImage metadata "XML:org.gimp.xml"
- Added a XCF with XML metadata and icc prifile embedded in autotest folder (generated by GIMP 2.10.30)
- Tested with Qt 5.15.2 and Qt 6.2.3 under Windows and Qt 6.2.3 under macOS

.git-blame-ignore-revs

@@ -0,0 +1,3 @@
+#clang-format/tidy
+1169859b07f25c865ee0bfc2a7dc97a431651776
+eaca33bec8b19498c3621fc3a20a8c55a2812462

.gitignore

@@ -21,3 +21,8 @@ CMakeLists.txt.user*
 *.unc-backup*
 .cmake/
 /.clang-format
+/compile_commands.json
+.clangd
+.idea
+/cmake-build*
+.cache

.gitlab-ci.yml

@@ -0,0 +1,9 @@
+# SPDX-FileCopyrightText: 2020 Volker Krause <vkrause@kde.org>
+# SPDX-License-Identifier: CC0-1.0
+
+include:
+  - https://invent.kde.org/sysadmin/ci-utilities/raw/master/gitlab-templates/linux.yml
+  - https://invent.kde.org/sysadmin/ci-utilities/raw/master/gitlab-templates/android.yml
+  - https://invent.kde.org/sysadmin/ci-utilities/raw/master/gitlab-templates/freebsd.yml
+  - https://invent.kde.org/sysadmin/ci-utilities/raw/master/gitlab-templates/linux-qt6.yml
+  - https://invent.kde.org/sysadmin/ci-utilities/raw/master/gitlab-templates/android-qt6.yml

.kde-ci.yml

@@ -0,0 +1,8 @@
+Dependencies:
+- 'on': ['Linux', 'FreeBSD', 'macOS', 'Windows']
+  'require':
+    'frameworks/extra-cmake-modules': '@same'
+    'frameworks/karchive' : '@same'
+
+Options:
+  test-before-installing: True

CMakeLists.txt

@@ -1,11 +1,9 @@
-cmake_minimum_required(VERSION 3.5)
+cmake_minimum_required(VERSION 3.16)
 
 project(KImageFormats)
 
-set (CMAKE_CXX_STANDARD 14)
-
 include(FeatureSummary)
-find_package(ECM 5.79.0  NO_MODULE)
+find_package(ECM 5.93.0  NO_MODULE)
 set_package_properties(ECM PROPERTIES TYPE REQUIRED DESCRIPTION "Extra CMake Modules." URL "https://commits.kde.org/extra-cmake-modules")
 feature_summary(WHAT REQUIRED_PACKAGES_NOT_FOUND FATAL_ON_MISSING_REQUIRED_PACKAGES)
 
@@ -15,12 +13,14 @@ set(CMAKE_MODULE_PATH ${ECM_MODULE_PATH})
 include(KDEInstallDirs)
 include(KDEFrameworkCompilerSettings NO_POLICY_SCOPE)
 include(KDECMakeSettings)
+include(KDEGitCommitHooks)
 
 
 include(CheckIncludeFiles)
+include(FindPkgConfig)
 
-set(REQUIRED_QT_VERSION 5.14.0)
-find_package(Qt5Gui ${REQUIRED_QT_VERSION} REQUIRED NO_MODULE)
+set(REQUIRED_QT_VERSION 5.15.2)
+find_package(Qt${QT_MAJOR_VERSION}Gui ${REQUIRED_QT_VERSION} REQUIRED NO_MODULE)
 
 find_package(KF5Archive)
 set_package_properties(KF5Archive PROPERTIES
@@ -32,17 +32,20 @@ set_package_properties(KF5Archive PROPERTIES
 # this available in PATH
 set(BUILD_EPS_PLUGIN FALSE)
 if (UNIX)
-    find_package(Qt5PrintSupport ${REQUIRED_QT_VERSION} NO_MODULE)
-    set_package_properties(Qt5PrintSupport PROPERTIES
+    find_package(Qt${QT_MAJOR_VERSION}PrintSupport ${REQUIRED_QT_VERSION} NO_MODULE)
+    set_package_properties(Qt${QT_MAJOR_VERSION}PrintSupport PROPERTIES
         PURPOSE "Required for the QImage plugin for EPS images"
         TYPE OPTIONAL
     )
-    if (Qt5PrintSupport_FOUND)
+    if (TARGET Qt${QT_MAJOR_VERSION}::PrintSupport)
         set(BUILD_EPS_PLUGIN TRUE)
     endif()
 endif()
 
-find_package(OpenEXR)
+find_package(OpenEXR 3.0 CONFIG QUIET)
+if(NOT OpenEXR_FOUND)
+    find_package(OpenEXR)
+endif()
 set_package_properties(OpenEXR PROPERTIES
     TYPE OPTIONAL
     PURPOSE "Required for the QImage plugin for OpenEXR images"
@@ -54,11 +57,21 @@ set_package_properties(libavif PROPERTIES
     PURPOSE "Required for the QImage plugin for AVIF images"
 )
 
-add_definitions(-DQT_NO_FOREACH)
-# 050d00 (5.13) triggers a BIC in qimageiohandler.h, in Qt 5.13, so do not enable that until we can require 5.14
-# https://codereview.qt-project.org/c/qt/qtbase/+/279215
-add_definitions(-DQT_DISABLE_DEPRECATED_BEFORE=0x050e00)
-add_definitions(-DKF_DISABLE_DEPRECATED_BEFORE_AND_AT=0x054B00)
+option(KIMAGEFORMATS_HEIF "Enable plugin for HEIF format" OFF)
+if(KIMAGEFORMATS_HEIF)
+    pkg_check_modules(LibHeif IMPORTED_TARGET libheif>=1.10.0)
+endif()
+add_feature_info(LibHeif LibHeif_FOUND "required for the QImage plugin for HEIF/HEIC images")
+
+option(KIMAGEFORMATS_JXL "Enable plugin for JPEG XL format" ON)
+if(KIMAGEFORMATS_JXL)
+    pkg_check_modules(LibJXL IMPORTED_TARGET libjxl>=0.6.1)
+    pkg_check_modules(LibJXLThreads IMPORTED_TARGET libjxl_threads>=0.6.1)
+endif()
+add_feature_info(LibJXL LibJXL_FOUND "required for the QImage plugin for JPEG XL images")
+
+add_definitions(-DQT_DISABLE_DEPRECATED_BEFORE=0x050f02)
+add_definitions(-DKF_DISABLE_DEPRECATED_BEFORE_AND_AT=0x055900)
 add_subdirectory(src)
 if (BUILD_TESTING)
     add_subdirectory(autotests)
@@ -66,3 +79,5 @@ if (BUILD_TESTING)
 endif()
 
 feature_summary(WHAT ALL FATAL_ON_MISSING_REQUIRED_PACKAGES)
+
+kde_configure_git_pre_commit_hook(CHECKS CLANG_FORMAT)

LICENSES/CC0-1.0.txt

@@ -0,0 +1,121 @@
+Creative Commons Legal Code
+
+CC0 1.0 Universal
+
+    CREATIVE COMMONS CORPORATION IS NOT A LAW FIRM AND DOES NOT PROVIDE
+    LEGAL SERVICES. DISTRIBUTION OF THIS DOCUMENT DOES NOT CREATE AN
+    ATTORNEY-CLIENT RELATIONSHIP. CREATIVE COMMONS PROVIDES THIS
+    INFORMATION ON AN "AS-IS" BASIS. CREATIVE COMMONS MAKES NO WARRANTIES
+    REGARDING THE USE OF THIS DOCUMENT OR THE INFORMATION OR WORKS
+    PROVIDED HEREUNDER, AND DISCLAIMS LIABILITY FOR DAMAGES RESULTING FROM
+    THE USE OF THIS DOCUMENT OR THE INFORMATION OR WORKS PROVIDED
+    HEREUNDER.
+
+Statement of Purpose
+
+The laws of most jurisdictions throughout the world automatically confer
+exclusive Copyright and Related Rights (defined below) upon the creator
+and subsequent owner(s) (each and all, an "owner") of an original work of
+authorship and/or a database (each, a "Work").
+
+Certain owners wish to permanently relinquish those rights to a Work for
+the purpose of contributing to a commons of creative, cultural and
+scientific works ("Commons") that the public can reliably and without fear
+of later claims of infringement build upon, modify, incorporate in other
+works, reuse and redistribute as freely as possible in any form whatsoever
+and for any purposes, including without limitation commercial purposes.
+These owners may contribute to the Commons to promote the ideal of a free
+culture and the further production of creative, cultural and scientific
+works, or to gain reputation or greater distribution for their Work in
+part through the use and efforts of others.
+
+For these and/or other purposes and motivations, and without any
+expectation of additional consideration or compensation, the person
+associating CC0 with a Work (the "Affirmer"), to the extent that he or she
+is an owner of Copyright and Related Rights in the Work, voluntarily
+elects to apply CC0 to the Work and publicly distribute the Work under its
+terms, with knowledge of his or her Copyright and Related Rights in the
+Work and the meaning and intended legal effect of CC0 on those rights.
+
+1. Copyright and Related Rights. A Work made available under CC0 may be
+protected by copyright and related or neighboring rights ("Copyright and
+Related Rights"). Copyright and Related Rights include, but are not
+limited to, the following:
+
+  i. the right to reproduce, adapt, distribute, perform, display,
+     communicate, and translate a Work;
+ ii. moral rights retained by the original author(s) and/or performer(s);
+iii. publicity and privacy rights pertaining to a person's image or
+     likeness depicted in a Work;
+ iv. rights protecting against unfair competition in regards to a Work,
+     subject to the limitations in paragraph 4(a), below;
+  v. rights protecting the extraction, dissemination, use and reuse of data
+     in a Work;
+ vi. database rights (such as those arising under Directive 96/9/EC of the
+     European Parliament and of the Council of 11 March 1996 on the legal
+     protection of databases, and under any national implementation
+     thereof, including any amended or successor version of such
+     directive); and
+vii. other similar, equivalent or corresponding rights throughout the
+     world based on applicable law or treaty, and any national
+     implementations thereof.
+
+2. Waiver. To the greatest extent permitted by, but not in contravention
+of, applicable law, Affirmer hereby overtly, fully, permanently,
+irrevocably and unconditionally waives, abandons, and surrenders all of
+Affirmer's Copyright and Related Rights and associated claims and causes
+of action, whether now known or unknown (including existing as well as
+future claims and causes of action), in the Work (i) in all territories
+worldwide, (ii) for the maximum duration provided by applicable law or
+treaty (including future time extensions), (iii) in any current or future
+medium and for any number of copies, and (iv) for any purpose whatsoever,
+including without limitation commercial, advertising or promotional
+purposes (the "Waiver"). Affirmer makes the Waiver for the benefit of each
+member of the public at large and to the detriment of Affirmer's heirs and
+successors, fully intending that such Waiver shall not be subject to
+revocation, rescission, cancellation, termination, or any other legal or
+equitable action to disrupt the quiet enjoyment of the Work by the public
+as contemplated by Affirmer's express Statement of Purpose.
+
+3. Public License Fallback. Should any part of the Waiver for any reason
+be judged legally invalid or ineffective under applicable law, then the
+Waiver shall be preserved to the maximum extent permitted taking into
+account Affirmer's express Statement of Purpose. In addition, to the
+extent the Waiver is so judged Affirmer hereby grants to each affected
+person a royalty-free, non transferable, non sublicensable, non exclusive,
+irrevocable and unconditional license to exercise Affirmer's Copyright and
+Related Rights in the Work (i) in all territories worldwide, (ii) for the
+maximum duration provided by applicable law or treaty (including future
+time extensions), (iii) in any current or future medium and for any number
+of copies, and (iv) for any purpose whatsoever, including without
+limitation commercial, advertising or promotional purposes (the
+"License"). The License shall be deemed effective as of the date CC0 was
+applied by Affirmer to the Work. Should any part of the License for any
+reason be judged legally invalid or ineffective under applicable law, such
+partial invalidity or ineffectiveness shall not invalidate the remainder
+of the License, and in such case Affirmer hereby affirms that he or she
+will not (i) exercise any of his or her remaining Copyright and Related
+Rights in the Work or (ii) assert any associated claims and causes of
+action with respect to the Work, in either case contrary to Affirmer's
+express Statement of Purpose.
+
+4. Limitations and Disclaimers.
+
+ a. No trademark or patent rights held by Affirmer are waived, abandoned,
+    surrendered, licensed or otherwise affected by this document.
+ b. Affirmer offers the Work as-is and makes no representations or
+    warranties of any kind concerning the Work, express, implied,
+    statutory or otherwise, including without limitation warranties of
+    title, merchantability, fitness for a particular purpose, non
+    infringement, or the absence of latent or other defects, accuracy, or
+    the present or absence of errors, whether or not discoverable, all to
+    the greatest extent permissible under applicable law.
+ c. Affirmer disclaims responsibility for clearing rights of other persons
+    that may apply to the Work or any use thereof, including without
+    limitation any person's Copyright and Related Rights in the Work.
+    Further, Affirmer disclaims responsibility for obtaining any necessary
+    consents, permissions or other rights required for any use of the
+    Work.
+ d. Affirmer understands and acknowledges that Creative Commons is not a
+    party to this document and has no duty or obligation with respect to
+    this CC0 or use of the Work.

README.md

@@ -23,6 +23,7 @@ The following image formats have read and write support:
 
 - AV1 Image File Format (AVIF)
 - Encapsulated PostScript (eps)
+- JPEG XL (jxl)
 - Personal Computer Exchange (pcx)
 - SGI images (rgb, rgba, sgi, bw)
 - Softimage PIC (pic)

autotests/CMakeLists.txt

@@ -15,7 +15,7 @@ macro(kimageformats_read_tests)
 
     if (NOT TARGET readtest)
         add_executable(readtest readtest.cpp)
-        target_link_libraries(readtest Qt5::Gui)
+        target_link_libraries(readtest Qt${QT_MAJOR_VERSION}::Gui)
         target_compile_definitions(readtest
             PRIVATE IMAGEDIR="${CMAKE_CURRENT_SOURCE_DIR}/read")
         ecm_mark_as_test(readtest)
@@ -30,23 +30,35 @@ macro(kimageformats_read_tests)
 endmacro()
 
 macro(kimageformats_write_tests)
+    cmake_parse_arguments(KIF_RT "" "FUZZ" "" ${ARGN})
+    set(_fuzzarg)
+    if (KIF_RT_FUZZ)
+        set(_fuzzarg -f ${KIF_RT_FUZZ})
+    endif()
+
     if (NOT TARGET writetest)
         add_executable(writetest writetest.cpp)
-        target_link_libraries(writetest Qt5::Gui)
+        target_link_libraries(writetest Qt${QT_MAJOR_VERSION}::Gui)
         target_compile_definitions(writetest
             PRIVATE IMAGEDIR="${CMAKE_CURRENT_SOURCE_DIR}/write")
         ecm_mark_as_test(writetest)
     endif()
-    foreach(_testname ${ARGN})
+    foreach(_testname ${KIF_RT_UNPARSED_ARGUMENTS})
         string(REGEX MATCH "-lossless$" _is_lossless "${_testname}")
+        string(REGEX MATCH "-nodatacheck" _is_no_data_check "${_testname}")
         unset(lossless_arg)
+        unset(no_data_check_arg)
         if (_is_lossless)
             set(lossless_arg "--lossless")
             string(REGEX REPLACE "-lossless$" "" _testname "${_testname}")
         endif()
+        if (_is_no_data_check)
+            set(no_data_check_arg "--no-data-check")
+            string(REGEX REPLACE "-nodatacheck$" "" _testname "${_testname}")
+        endif()
         add_test(
             NAME kimageformats-write-${_testname}
-            COMMAND writetest ${lossless_arg} ${_testname}
+            COMMAND writetest ${lossless_arg} ${no_data_check_arg} ${_fuzzarg} ${_testname}
         )
     endforeach(_testname)
 endmacro()
@@ -74,6 +86,29 @@ if (TARGET avif)
     kimageformats_read_tests(
         avif
     )
+    # because the plug-ins use RGB->YUV conversion which sometimes results in 1 value difference.
+    kimageformats_write_tests(FUZZ 1
+        avif-nodatacheck-lossless
+    )
+endif()
+
+if (LibHeif_FOUND)
+    kimageformats_read_tests(
+        heif
+    )
+    # because the plug-ins use RGB->YUV conversion which sometimes results in 1 value difference.
+    kimageformats_write_tests(FUZZ 1
+        heif-nodatacheck-lossless
+    )
+endif()
+
+if (LibJXL_FOUND AND LibJXLThreads_FOUND)
+    kimageformats_read_tests(
+        jxl
+    )
+    kimageformats_write_tests(
+        jxl-nodatacheck-lossless
+    )
 endif()
 
 # Allow some fuzziness when reading this formats, to allow for
@@ -105,19 +140,19 @@ if (OpenEXR_FOUND)
     # FIXME: OpenEXR tests
 endif()
 
-find_package(Qt5Test ${REQUIRED_QT_VERSION} CONFIG QUIET)
+find_package(Qt${QT_MAJOR_VERSION}Test ${REQUIRED_QT_VERSION} CONFIG QUIET)
 
-if(NOT Qt5Test_FOUND)
-    message(STATUS "Qt5Test not found, some autotests will not be built.")
+if(NOT TARGET Qt${QT_MAJOR_VERSION}::Test)
+    message(STATUS "Qt${QT_MAJOR_VERSION}Test not found, some autotests will not be built.")
     return()
 endif()
 
 add_executable(pictest pictest.cpp)
-target_link_libraries(pictest Qt5::Gui Qt5::Test)
+target_link_libraries(pictest Qt${QT_MAJOR_VERSION}::Gui Qt${QT_MAJOR_VERSION}::Test)
 ecm_mark_as_test(pictest)
 add_test(NAME kimageformats-pic COMMAND pictest)
 
 add_executable(anitest anitest.cpp)
-target_link_libraries(anitest Qt5::Gui Qt5::Test)
+target_link_libraries(anitest Qt${QT_MAJOR_VERSION}::Gui Qt${QT_MAJOR_VERSION}::Test)
 ecm_mark_as_test(anitest)
 add_test(NAME kimageformats-ani COMMAND anitest)

autotests/fuzzyeq.cpp

@@ -0,0 +1,37 @@
+/*
+    SPDX-FileCopyrightText: 2014 Alex Merry <alex.merry@kdemail.net>
+
+    SPDX-License-Identifier: LGPL-2.1-only OR LGPL-3.0-only OR LicenseRef-KDE-Accepted-LGPL
+*/
+
+template<class Trait>
+static bool fuzzyeq(const QImage &im1, const QImage &im2, uchar fuzziness)
+{
+    Q_ASSERT(im1.format() == im2.format());
+    Q_ASSERT(im1.depth() == 24 || im1.depth() == 32 || im1.depth() == 64);
+
+    const int height = im1.height();
+    const int width = im1.width();
+    for (int i = 0; i < height; ++i) {
+        const Trait *line1 = reinterpret_cast<const Trait *>(im1.scanLine(i));
+        const Trait *line2 = reinterpret_cast<const Trait *>(im2.scanLine(i));
+        for (int j = 0; j < width; ++j) {
+            if (line1[j] > line2[j]) {
+                if (line1[j] - line2[j] > fuzziness) {
+                    return false;
+                }
+            } else {
+                if (line2[j] - line1[j] > fuzziness) {
+                    return false;
+                }
+            }
+        }
+    }
+    return true;
+}
+
+// allow each byte to be different by up to 1, to allow for rounding errors
+static bool fuzzyeq(const QImage &im1, const QImage &im2, uchar fuzziness)
+{
+    return (im1.depth() == 64) ? fuzzyeq<quint16>(im1, im2, fuzziness) : fuzzyeq<quint8>(im1, im2, fuzziness);
+}

autotests/pictest.cpp

@@ -35,61 +35,27 @@ private:
         QTest::addColumn<QImage::Format>("pngformat");
         QTest::addColumn<bool>("compress");
 
-        QTest::newRow("4x4 no alpha RLE")
-            << QFINDTESTDATA("pic/4x4-simple-color.pic")
-            << QFINDTESTDATA("pic/4x4-simple-color.png")
-            << QString()
-            << false
-            << QImage::Format_RGB32
-            << true;
+        QTest::newRow("4x4 no alpha RLE") << QFINDTESTDATA("pic/4x4-simple-color.pic") << QFINDTESTDATA("pic/4x4-simple-color.png") << QString() << false
+                                          << QImage::Format_RGB32 << true;
 
-        QTest::newRow("4x4 no alpha raw")
-            << QFINDTESTDATA("pic/4x4-simple-color-uncompressed.pic")
-            << QFINDTESTDATA("pic/4x4-simple-color.png")
-            << QString()
-            << false
-            << QImage::Format_RGB32
-            << false;
+        QTest::newRow("4x4 no alpha raw") << QFINDTESTDATA("pic/4x4-simple-color-uncompressed.pic") << QFINDTESTDATA("pic/4x4-simple-color.png") << QString()
+                                          << false << QImage::Format_RGB32 << false;
 
-        QTest::newRow("Short comment")
-            << QFINDTESTDATA("pic/short-comment.pic")
-            << QFINDTESTDATA("pic/4x4-simple-color.png")
-            << QStringLiteral("Test comment value")
-            << false
-            << QImage::Format_RGB32
-            << true;
+        QTest::newRow("Short comment") << QFINDTESTDATA("pic/short-comment.pic") << QFINDTESTDATA("pic/4x4-simple-color.png")
+                                       << QStringLiteral("Test comment value") << false << QImage::Format_RGB32 << true;
 
-        QTest::newRow("Long comment")
-            << QFINDTESTDATA("pic/long-comment.pic")
-            << QFINDTESTDATA("pic/4x4-simple-color.png")
-            << QStringLiteral("Test comment value that goes right up to the end of the comment field and has no")
-            << false
-            << QImage::Format_RGB32
-            << true;
+        QTest::newRow("Long comment") << QFINDTESTDATA("pic/long-comment.pic") << QFINDTESTDATA("pic/4x4-simple-color.png")
+                                      << QStringLiteral("Test comment value that goes right up to the end of the comment field and has no") << false
+                                      << QImage::Format_RGB32 << true;
 
-        QTest::newRow("Long run-lengths")
-            << QFINDTESTDATA("pic/long-runs.pic")
-            << QFINDTESTDATA("pic/long-runs.png")
-            << QString()
-            << false
-            << QImage::Format_RGB32
-            << true;
+        QTest::newRow("Long run-lengths") << QFINDTESTDATA("pic/long-runs.pic") << QFINDTESTDATA("pic/long-runs.png") << QString() << false
+                                          << QImage::Format_RGB32 << true;
 
-        QTest::newRow("4x4 with alpha RLE")
-            << QFINDTESTDATA("pic/4x4-alpha.pic")
-            << QFINDTESTDATA("pic/4x4-alpha.png")
-            << QString()
-            << true
-            << QImage::Format_ARGB32
-            << true;
+        QTest::newRow("4x4 with alpha RLE") << QFINDTESTDATA("pic/4x4-alpha.pic") << QFINDTESTDATA("pic/4x4-alpha.png") << QString() << true
+                                            << QImage::Format_ARGB32 << true;
 
-        QTest::newRow("4x4 with alpha raw")
-            << QFINDTESTDATA("pic/4x4-alpha-uncompressed.pic")
-            << QFINDTESTDATA("pic/4x4-alpha.png")
-            << QString()
-            << true
-            << QImage::Format_ARGB32
-            << false;
+        QTest::newRow("4x4 with alpha raw") << QFINDTESTDATA("pic/4x4-alpha-uncompressed.pic") << QFINDTESTDATA("pic/4x4-alpha.png") << QString() << true
+                                            << QImage::Format_ARGB32 << false;
     }
 
 private Q_SLOTS:
@@ -106,13 +72,8 @@ private Q_SLOTS:
         //     so there is no actual data loss in converting to RGB16.
         //     This just tests that the pic plugin can deal with different
         //     input formats.
-        QTest::newRow("altered format")
-            << QFINDTESTDATA("pic/4x4-simple-color.pic")
-            << QFINDTESTDATA("pic/4x4-simple-color.png")
-            << QString()
-            << false
-            << QImage::Format_RGB16
-            << true;
+        QTest::newRow("altered format") << QFINDTESTDATA("pic/4x4-simple-color.pic") << QFINDTESTDATA("pic/4x4-simple-color.png") << QString() << false
+                                        << QImage::Format_RGB16 << true;
     }
 
     void testRead_data()
@@ -148,17 +109,12 @@ private Q_SLOTS:
         imgWriter.write(pngImage);
 
         if (expData != picData) {
-            QString fileNameBase = QUuid::createUuid().toString()
-                .remove(QLatin1Char('{'))
-                .remove(QLatin1Char('}'));
+            QString fileNameBase = QUuid::createUuid().toString().remove(QLatin1Char('{')).remove(QLatin1Char('}'));
             QFile dumpFile(fileNameBase + QStringLiteral(".pic"));
             QVERIFY2(dumpFile.open(QIODevice::WriteOnly), qPrintable(dumpFile.errorString()));
             dumpFile.write(picData);
-            QString msg = QStringLiteral("Written data (")
-                        + dumpFile.fileName()
-                        + QStringLiteral(") differed from expected data (")
-                        + picfile
-                        + QLatin1Char(')');
+            QString msg =
+                QStringLiteral("Written data (") + dumpFile.fileName() + QStringLiteral(") differed from expected data (") + picfile + QLatin1Char(')');
             QFAIL(qPrintable(msg));
         }
     }
@@ -182,29 +138,20 @@ private Q_SLOTS:
         QCOMPARE(inputImage.width(), expImage.width());
         QCOMPARE(inputImage.height(), expImage.height());
         QCOMPARE(inputImage.hasAlphaChannel(), alpha);
-        QCOMPARE(inputImage.format(), alpha ? QImage::Format_ARGB32
-                                            : QImage::Format_RGB32);
+        QCOMPARE(inputImage.format(), alpha ? QImage::Format_ARGB32 : QImage::Format_RGB32);
 
         expImage = expImage.convertToFormat(pngformat);
-        expImage = expImage.convertToFormat(alpha ? QImage::Format_ARGB32
-                                                  : QImage::Format_RGB32);
+        expImage = expImage.convertToFormat(alpha ? QImage::Format_ARGB32 : QImage::Format_RGB32);
         if (inputImage != expImage) {
-            QString fileNameBase = QUuid::createUuid().toString()
-                .remove(QLatin1Char('{'))
-                .remove(QLatin1Char('}'));
+            QString fileNameBase = QUuid::createUuid().toString().remove(QLatin1Char('{')).remove(QLatin1Char('}'));
             QFile picDumpFile(fileNameBase + QStringLiteral("-expected.data"));
             QVERIFY2(picDumpFile.open(QIODevice::WriteOnly), qPrintable(picDumpFile.errorString()));
-            picDumpFile.write(reinterpret_cast<const char *>(inputImage.bits()),
-                              inputImage.sizeInBytes());
+            picDumpFile.write(reinterpret_cast<const char *>(inputImage.bits()), inputImage.sizeInBytes());
             QFile pngDumpFile(fileNameBase + QStringLiteral("-actual.data"));
             QVERIFY2(pngDumpFile.open(QIODevice::WriteOnly), qPrintable(pngDumpFile.errorString()));
-            pngDumpFile.write(reinterpret_cast<const char *>(expImage.bits()),
-                              expImage.sizeInBytes());
-            QString msg = QStringLiteral("Read image (")
-                        + picDumpFile.fileName()
-                        + QStringLiteral(") differed from expected image (")
-                        + pngDumpFile.fileName()
-                        + QLatin1Char(')');
+            pngDumpFile.write(reinterpret_cast<const char *>(expImage.bits()), expImage.sizeInBytes());
+            QString msg = QStringLiteral("Read image (") + picDumpFile.fileName() + QStringLiteral(") differed from expected image (") + pngDumpFile.fileName()
+                + QLatin1Char(')');
             QFAIL(qPrintable(msg));
         }
     }
@@ -252,8 +199,7 @@ private Q_SLOTS:
 
         QImageReader inputReader(picfile, "pic");
 
-        QCOMPARE(inputReader.imageFormat(),
-                 alpha ? QImage::Format_ARGB32 : QImage::Format_RGB32);
+        QCOMPARE(inputReader.imageFormat(), alpha ? QImage::Format_ARGB32 : QImage::Format_RGB32);
     }
 };
 

autotests/readtest.cpp

@@ -16,57 +16,23 @@
 
 #include "../tests/format-enum.h"
 
+#include "fuzzyeq.cpp"
+
 static void writeImageData(const char *name, const QString &filename, const QImage &image)
 {
     QFile file(filename);
     if (file.open(QIODevice::WriteOnly)) {
         qint64 written = file.write(reinterpret_cast<const char *>(image.bits()), image.sizeInBytes());
         if (written == image.sizeInBytes()) {
-            QTextStream(stdout) << "       " << name
-                                << " written to " << filename << "\n";
+            QTextStream(stdout) << "       " << name << " written to " << filename << "\n";
         } else {
-            QTextStream(stdout) << "       could not write " << name
-                                << " to " << filename << ":"
-                                << file.errorString() << "\n";
+            QTextStream(stdout) << "       could not write " << name << " to " << filename << ":" << file.errorString() << "\n";
         }
     } else {
-        QTextStream(stdout) << "       could not open "
-                            << filename << ":"
-                            << file.errorString() << "\n";
+        QTextStream(stdout) << "       could not open " << filename << ":" << file.errorString() << "\n";
     }
 }
 
-template<class Trait>
-static bool fuzzyeq(const QImage &im1, const QImage &im2, uchar fuzziness)
-{
-    Q_ASSERT(im1.format() == im2.format());
-    Q_ASSERT(im1.depth() == 24 || im1.depth() == 32 || im1.depth() == 64);
-
-    const int height = im1.height();
-    const int width = im1.width();
-    for (int i = 0; i < height; ++i) {
-        const Trait *line1 = reinterpret_cast<const Trait*>(im1.scanLine(i));
-        const Trait *line2 = reinterpret_cast<const Trait*>(im2.scanLine(i));
-        for (int j = 0; j < width; ++j) {
-            if (line1[j] > line2[j]) {
-                if (line1[j] - line2[j] > fuzziness)
-                    return false;
-            } else {
-                if (line2[j] - line1[j] > fuzziness)
-                    return false;
-            }
-        }
-    }
-    return true;
-}
-
-// allow each byte to be different by up to 1, to allow for rounding errors
-static bool fuzzyeq(const QImage &im1, const QImage &im2, uchar fuzziness)
-{
-    return (im1.depth() == 64) ? fuzzyeq<quint16>(im1, im2, fuzziness)
-                               : fuzzyeq<quint8>(im1, im2, fuzziness);
-}
-
 // Returns the original format if we support, or returns
 // format which we preferred to use for `fuzzyeq()`.
 // We do only support formats with 8-bits/16-bits pre pixel.
@@ -84,7 +50,7 @@ static QImage::Format preferredFormat(QImage::Format fmt)
     }
 }
 
-int main(int argc, char ** argv)
+int main(int argc, char **argv)
 {
     QCoreApplication app(argc, argv);
     QCoreApplication::removeLibraryPath(QStringLiteral(PLUGIN_DIR));
@@ -97,10 +63,9 @@ int main(int argc, char ** argv)
     parser.addHelpOption();
     parser.addVersionOption();
     parser.addPositionalArgument(QStringLiteral("format"), QStringLiteral("format to test"));
-    QCommandLineOption fuzz(
-        QStringList() << QStringLiteral("f") << QStringLiteral("fuzz"),
-        QStringLiteral("Allow for some deviation in ARGB data."),
-        QStringLiteral("max"));
+    QCommandLineOption fuzz(QStringList() << QStringLiteral("f") << QStringLiteral("fuzz"),
+                            QStringLiteral("Allow for some deviation in ARGB data."),
+                            QStringLiteral("max"));
     parser.addOption(fuzz);
 
     parser.process(app);
@@ -136,13 +101,14 @@ int main(int argc, char ** argv)
     int failed = 0;
 
     QTextStream(stdout) << "********* "
-        << "Starting basic read tests for "
-        << suffix << " images *********\n";
+                        << "Starting basic read tests for " << suffix << " images *********\n";
 
     const QList<QByteArray> formats = QImageReader::supportedImageFormats();
     QStringList formatStrings;
     formatStrings.reserve(formats.size());
-    std::transform(formats.begin(), formats.end(), std::back_inserter(formatStrings), [](const QByteArray &format) { return QString(format); });
+    std::transform(formats.begin(), formats.end(), std::back_inserter(formatStrings), [](const QByteArray &format) {
+        return QString(format);
+    });
     QTextStream(stdout) << "QImageReader::supportedImageFormats: " << formatStrings.join(", ") << "\n";
 
     const QFileInfoList lstImgDir = imgdir.entryInfoList();
@@ -159,40 +125,27 @@ int main(int argc, char ** argv)
         QImage expImage;
 
         if (!expReader.read(&expImage)) {
-            QTextStream(stdout) << "ERROR: " << fi.fileName()
-                << ": could not load " << expfilename
-                << ": " << expReader.errorString()
-                << "\n";
+            QTextStream(stdout) << "ERROR: " << fi.fileName() << ": could not load " << expfilename << ": " << expReader.errorString() << "\n";
             ++failed;
             continue;
         }
         if (!inputReader.canRead()) {
-            QTextStream(stdout) << "FAIL : " << fi.fileName()
-                << ": failed can read: "
-                << inputReader.errorString()
-                << "\n";
+            QTextStream(stdout) << "FAIL : " << fi.fileName() << ": failed can read: " << inputReader.errorString() << "\n";
             ++failed;
             continue;
         }
         if (!inputReader.read(&inputImage)) {
-            QTextStream(stdout) << "FAIL : " << fi.fileName()
-                << ": failed to load: "
-                << inputReader.errorString()
-                << "\n";
+            QTextStream(stdout) << "FAIL : " << fi.fileName() << ": failed to load: " << inputReader.errorString() << "\n";
             ++failed;
             continue;
         }
         if (expImage.width() != inputImage.width()) {
-            QTextStream(stdout) << "FAIL : " << fi.fileName()
-                << ": width was " << inputImage.width()
-                << " but " << expfilename << " width was "
-                << expImage.width() << "\n";
+            QTextStream(stdout) << "FAIL : " << fi.fileName() << ": width was " << inputImage.width() << " but " << expfilename << " width was "
+                                << expImage.width() << "\n";
             ++failed;
         } else if (expImage.height() != inputImage.height()) {
-            QTextStream(stdout) << "FAIL : " << fi.fileName()
-                << ": height was " << inputImage.height()
-                << " but " << expfilename << " height was "
-                << expImage.height() << "\n";
+            QTextStream(stdout) << "FAIL : " << fi.fileName() << ": height was " << inputImage.height() << " but " << expfilename << " height was "
+                                << expImage.height() << "\n";
             ++failed;
         } else {
             QImage::Format inputFormat = preferredFormat(inputImage.format());
@@ -200,42 +153,30 @@ int main(int argc, char ** argv)
             QImage::Format cmpFormat = inputFormat == expFormat ? inputFormat : QImage::Format_ARGB32;
 
             if (inputImage.format() != cmpFormat) {
-                QTextStream(stdout) << "INFO : " << fi.fileName()
-                    << ": converting " << fi.fileName()
-                    << " from " << formatToString(inputImage.format())
-                    << " to " << formatToString(cmpFormat) << '\n';
+                QTextStream(stdout) << "INFO : " << fi.fileName() << ": converting " << fi.fileName() << " from " << formatToString(inputImage.format())
+                                    << " to " << formatToString(cmpFormat) << '\n';
                 inputImage = inputImage.convertToFormat(cmpFormat);
             }
             if (expImage.format() != cmpFormat) {
-                QTextStream(stdout) << "INFO : " << fi.fileName()
-                    << ": converting " << expfilename
-                    << " from " << formatToString(expImage.format())
-                    << " to " << formatToString(cmpFormat) << '\n';
+                QTextStream(stdout) << "INFO : " << fi.fileName() << ": converting " << expfilename << " from " << formatToString(expImage.format()) << " to "
+                                    << formatToString(cmpFormat) << '\n';
                 expImage = expImage.convertToFormat(cmpFormat);
             }
             if (fuzzyeq(inputImage, expImage, fuzziness)) {
                 QTextStream(stdout) << "PASS : " << fi.fileName() << "\n";
                 ++passed;
             } else {
-                QTextStream(stdout) << "FAIL : " << fi.fileName()
-                    << ": differs from " << expfilename << "\n";
-                writeImageData("expected data",
-                               fi.fileName() + QLatin1String("-expected.data"),
-                               expImage);
-                writeImageData("actual data",
-                               fi.fileName() + QLatin1String("-actual.data"),
-                               inputImage);
+                QTextStream(stdout) << "FAIL : " << fi.fileName() << ": differs from " << expfilename << "\n";
+                writeImageData("expected data", fi.fileName() + QLatin1String("-expected.data"), expImage);
+                writeImageData("actual data", fi.fileName() + QLatin1String("-actual.data"), inputImage);
                 ++failed;
             }
         }
     }
 
-    QTextStream(stdout) << "Totals: "
-        << passed << " passed, "
-        << failed << " failed\n";
+    QTextStream(stdout) << "Totals: " << passed << " passed, " << failed << " failed\n";
     QTextStream(stdout) << "********* "
-        << "Finished basic read tests for "
-        << suffix << " images *********\n";
+                        << "Finished basic read tests for " << suffix << " images *********\n";
 
     return failed == 0 ? 0 : 1;
 }

autotests/writetest.cpp

@@ -16,7 +16,9 @@
 #include <QImageWriter>
 #include <QTextStream>
 
-int main(int argc, char ** argv)
+#include "fuzzyeq.cpp"
+
+int main(int argc, char **argv)
 {
     QCoreApplication app(argc, argv);
     QCoreApplication::removeLibraryPath(QStringLiteral(PLUGIN_DIR));
@@ -29,10 +31,15 @@ int main(int argc, char ** argv)
     parser.addHelpOption();
     parser.addVersionOption();
     parser.addPositionalArgument(QStringLiteral("format"), QStringLiteral("format to test."));
-    QCommandLineOption lossless(
-        QStringList() << QStringLiteral("l") << QStringLiteral("lossless"),
-        QStringLiteral("Check that reading back the data gives the same image."));
+    QCommandLineOption lossless(QStringList() << QStringLiteral("l") << QStringLiteral("lossless"),
+                                QStringLiteral("Check that reading back the data gives the same image."));
+    QCommandLineOption ignoreDataCheck({QStringLiteral("no-data-check")}, QStringLiteral("Don't check that write data is exactly the same."));
+    QCommandLineOption fuzz(QStringList() << QStringLiteral("f") << QStringLiteral("fuzz"),
+                            QStringLiteral("Allow for some deviation in ARGB data."),
+                            QStringLiteral("max"));
     parser.addOption(lossless);
+    parser.addOption(ignoreDataCheck);
+    parser.addOption(fuzz);
 
     parser.process(app);
 
@@ -45,78 +52,91 @@ int main(int argc, char ** argv)
         parser.showHelp(1);
     }
 
+    uchar fuzziness = 0;
+    if (parser.isSet(fuzz)) {
+        bool ok;
+        uint fuzzarg = parser.value(fuzz).toUInt(&ok);
+        if (!ok || fuzzarg > 255) {
+            QTextStream(stderr) << "Error: max fuzz argument must be a number between 0 and 255\n";
+            parser.showHelp(1);
+        }
+        fuzziness = uchar(fuzzarg);
+    }
+
     QString suffix = args.at(0);
     QByteArray format = suffix.toLatin1();
 
     QDir imgdir(QStringLiteral(IMAGEDIR));
-    imgdir.setNameFilters(QStringList(QLatin1String("*.") + suffix));
+    if (parser.isSet(ignoreDataCheck)) {
+        imgdir.setNameFilters({QLatin1String("*.png")});
+    } else {
+        imgdir.setNameFilters(QStringList(QLatin1String("*.") + suffix));
+    }
     imgdir.setFilter(QDir::Files);
 
     int passed = 0;
     int failed = 0;
 
     QTextStream(stdout) << "********* "
-        << "Starting basic write tests for "
-        << suffix << " images *********\n";
+                        << "Starting basic write tests for " << suffix << " images *********\n";
     const QFileInfoList lstImgDir = imgdir.entryInfoList();
     for (const QFileInfo &fi : lstImgDir) {
-        int suffixPos = fi.filePath().count() - suffix.count();
-        QString pngfile = fi.filePath().replace(suffixPos, suffix.count(), QStringLiteral("png"));
+        QString pngfile;
+        if (parser.isSet(ignoreDataCheck)) {
+            pngfile = fi.filePath();
+        } else {
+            int suffixPos = fi.filePath().count() - suffix.count();
+            pngfile = fi.filePath().replace(suffixPos, suffix.count(), QStringLiteral("png"));
+        }
         QString pngfilename = QFileInfo(pngfile).fileName();
 
         QImageReader pngReader(pngfile, "png");
         QImage pngImage;
         if (!pngReader.read(&pngImage)) {
-            QTextStream(stdout) << "ERROR: " << fi.fileName()
-                << ": could not load " << pngfilename
-                << ": " << pngReader.errorString()
-                << "\n";
+            QTextStream(stdout) << "ERROR: " << fi.fileName() << ": could not load " << pngfilename << ": " << pngReader.errorString() << "\n";
             ++failed;
             continue;
         }
 
-        QFile expFile(fi.filePath());
-        if (!expFile.open(QIODevice::ReadOnly)) {
-            QTextStream(stdout) << "ERROR: " << fi.fileName()
-                << ": could not open " << fi.fileName()
-                << ": " << expFile.errorString()
-                << "\n";
-            ++failed;
-            continue;
-        }
-        QByteArray expData = expFile.readAll();
-        if (expData.isEmpty()) {
-            // check if there was actually anything to read
-            expFile.reset();
-            char buf[1];
-            qint64 result = expFile.read(buf, 1);
-            if (result < 0) {
-                QTextStream(stdout) << "ERROR: " << fi.fileName()
-                    << ": could not load " << fi.fileName()
-                    << ": " << expFile.errorString()
-                    << "\n";
-                ++failed;
-                continue;
-            }
-        }
-
         QByteArray writtenData;
         {
             QBuffer buffer(&writtenData);
             QImageWriter imgWriter(&buffer, format.constData());
+            if (parser.isSet(lossless)) {
+                imgWriter.setQuality(100);
+            }
             if (!imgWriter.write(pngImage)) {
-                QTextStream(stdout) << "FAIL : " << fi.fileName()
-                    << ": failed to write image data\n";
+                QTextStream(stdout) << "FAIL : " << fi.fileName() << ": failed to write image data\n";
                 ++failed;
                 continue;
             }
         }
 
-        if (expData != writtenData) {
-            QTextStream(stdout) << "FAIL : " << fi.fileName()
-                << ": written data differs from " << fi.fileName() << "\n";
-            ++failed;
-            continue;
+        if (!parser.isSet(ignoreDataCheck)) {
+            QFile expFile(fi.filePath());
+            if (!expFile.open(QIODevice::ReadOnly)) {
+                QTextStream(stdout) << "ERROR: " << fi.fileName() << ": could not open " << fi.fileName() << ": " << expFile.errorString() << "\n";
+                ++failed;
+                continue;
+            }
+            QByteArray expData = expFile.readAll();
+            if (expData.isEmpty()) {
+                // check if there was actually anything to read
+                expFile.reset();
+                char buf[1];
+                qint64 result = expFile.read(buf, 1);
+                if (result < 0) {
+                    QTextStream(stdout) << "ERROR: " << fi.fileName() << ": could not load " << fi.fileName() << ": " << expFile.errorString() << "\n";
+                    ++failed;
+                    continue;
+                }
+            }
+
+            if (expData != writtenData) {
+                QTextStream(stdout) << "FAIL : " << fi.fileName() << ": written data differs from " << fi.fileName() << "\n";
+                ++failed;
+                continue;
+            }
         }
 
         QImage reReadImage;
@@ -124,8 +144,7 @@ int main(int argc, char ** argv)
             QBuffer buffer(&writtenData);
             QImageReader imgReader(&buffer, format.constData());
             if (!imgReader.read(&reReadImage)) {
-                QTextStream(stdout) << "FAIL : " << fi.fileName()
-                    << ": could not read back the written data\n";
+                QTextStream(stdout) << "FAIL : " << fi.fileName() << ": could not read back the written data\n";
                 ++failed;
                 continue;
             }
@@ -133,9 +152,18 @@ int main(int argc, char ** argv)
         }
 
         if (parser.isSet(lossless)) {
-            if (pngImage != reReadImage) {
-                QTextStream(stdout) << "FAIL : " << fi.fileName()
-                    << ": re-reading the data resulted in a different image\n";
+            if (!fuzzyeq(pngImage, reReadImage, fuzziness)) {
+                QTextStream(stdout) << "FAIL : " << fi.fileName() << ": re-reading the data resulted in a different image\n";
+                if (pngImage.size() == reReadImage.size()) {
+                    for (int i = 0; i < pngImage.width(); ++i) {
+                        for (int j = 0; j < pngImage.height(); ++j) {
+                            if (pngImage.pixel(i, j) != reReadImage.pixel(i, j)) {
+                                QTextStream(stdout) << "Pixel is different " << i << ',' << j << ' ' << pngImage.pixel(i, j) << ' ' << reReadImage.pixel(i, j)
+                                                    << '\n';
+                            }
+                        }
+                    }
+                }
                 ++failed;
                 continue;
             }
@@ -145,12 +173,9 @@ int main(int argc, char ** argv)
         ++passed;
     }
 
-    QTextStream(stdout) << "Totals: "
-        << passed << " passed, "
-        << failed << " failed\n";
+    QTextStream(stdout) << "Totals: " << passed << " passed, " << failed << " failed\n";
     QTextStream(stdout) << "********* "
-        << "Finished basic write tests for "
-        << suffix << " images *********\n";
+                        << "Finished basic write tests for " << suffix << " images *********\n";
 
     return failed == 0 ? 0 : 1;
 }

metainfo.yaml

@@ -5,7 +5,7 @@ type: functional
 platforms:
     - name: Linux
     - name: FreeBSD
-    - name: MacOSX
+    - name: macOS
     - name: Windows
       note: No EPS support on Windows
     - name: Android

src/imageformats/CMakeLists.txt

@@ -4,116 +4,136 @@
 
 function(kimageformats_add_plugin plugin)
     set(options)
-    set(oneValueArgs JSON)
     set(multiValueArgs SOURCES)
     cmake_parse_arguments(KIF_ADD_PLUGIN "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN})
     if(NOT KIF_ADD_PLUGIN_SOURCES)
         message(FATAL_ERROR "kimageformats_add_plugin called without SOURCES parameter")
     endif()
-    get_filename_component(json "${KIF_ADD_PLUGIN_JSON}" REALPATH)
-    if(NOT KIF_ADD_PLUGIN_JSON OR NOT EXISTS ${json})
-        message(FATAL_ERROR "JSON file doesn't exist: ${json}")
-    endif()
 
     add_library(${plugin} MODULE ${KIF_ADD_PLUGIN_SOURCES})
-    set_property(TARGET ${plugin} APPEND PROPERTY AUTOGEN_TARGET_DEPENDS ${json})
     set_target_properties(${plugin} PROPERTIES LIBRARY_OUTPUT_DIRECTORY "${CMAKE_LIBRARY_OUTPUT_DIRECTORY}/imageformats")
-    target_link_libraries(${plugin} Qt5::Gui)
+    target_link_libraries(${plugin} Qt${QT_MAJOR_VERSION}::Gui)
     install(TARGETS ${plugin} DESTINATION ${KDE_INSTALL_QTPLUGINDIR}/imageformats)
 endfunction()
 
 ##################################
 
-kimageformats_add_plugin(kimg_ani JSON "ani.json" SOURCES ani.cpp)
-install(FILES ani.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+kimageformats_add_plugin(kimg_ani SOURCES ani.cpp)
+install(FILES ani.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
 
 ##################################
 
 if (TARGET avif)
-    kimageformats_add_plugin(kimg_avif JSON "avif.json" SOURCES "avif.cpp")
+    kimageformats_add_plugin(kimg_avif SOURCES "avif.cpp")
     target_link_libraries(kimg_avif "avif")
-    install(FILES avif.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+    install(FILES avif.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
 endif()
 
 ##################################
 
-install(FILES dds-qt.desktop RENAME dds.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+install(FILES dds-qt.desktop RENAME dds.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
 
 ##################################
 
 if (BUILD_EPS_PLUGIN)
-    if (Qt5PrintSupport_FOUND)
-        kimageformats_add_plugin(kimg_eps JSON "eps.json" SOURCES eps.cpp)
-        target_link_libraries(kimg_eps Qt5::PrintSupport)
-        install(FILES eps.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+    if (TARGET Qt${QT_MAJOR_VERSION}::PrintSupport)
+        kimageformats_add_plugin(kimg_eps SOURCES eps.cpp)
+        target_link_libraries(kimg_eps Qt${QT_MAJOR_VERSION}::PrintSupport)
+        install(FILES eps.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
     endif()
 endif()
 
 ##################################
 
 # need this for Qt's version of the plugin
-install(FILES jp2.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+install(FILES jp2.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
 
 ##################################
 
 if(OpenEXR_FOUND)
-    kimageformats_add_plugin(kimg_exr JSON "exr.json" SOURCES exr.cpp)
-    target_link_libraries(kimg_exr OpenEXR::IlmImf)
+    kimageformats_add_plugin(kimg_exr SOURCES exr.cpp)
+    if(TARGET OpenEXR::OpenEXR)
+        target_link_libraries(kimg_exr OpenEXR::OpenEXR)
+    else()
+        if(OpenEXR_VERSION_STRING VERSION_LESS 2.3.0)
+            # Older OpenEXR versions use dynamic exception specifications, so
+            # cannot use C++17 with them
+            set_target_properties(kimg_exr PROPERTIES CXX_STANDARD 14)
+        endif()
+        target_link_libraries(kimg_exr OpenEXR::IlmImf)
+    endif()
     kde_target_enable_exceptions(kimg_exr PRIVATE)
 
-    install(FILES exr.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+    install(FILES exr.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
 endif()
 
 ##################################
 
-kimageformats_add_plugin(kimg_hdr JSON "hdr.json" SOURCES hdr.cpp)
-install(FILES hdr.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+kimageformats_add_plugin(kimg_hdr SOURCES hdr.cpp)
+install(FILES hdr.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
 
 ##################################
 
-kimageformats_add_plugin(kimg_pcx JSON "pcx.json" SOURCES pcx.cpp)
-install(FILES pcx.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+if (LibHeif_FOUND)
+    kimageformats_add_plugin(kimg_heif SOURCES heif.cpp)
+    target_link_libraries(kimg_heif PkgConfig::LibHeif)
+    kde_target_enable_exceptions(kimg_heif PRIVATE)
+    install(FILES heif.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
+endif()
 
 ##################################
 
-kimageformats_add_plugin(kimg_pic JSON "pic.json" SOURCES pic.cpp)
-install(FILES pic.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+if (LibJXL_FOUND AND LibJXLThreads_FOUND)
+    kimageformats_add_plugin(kimg_jxl SOURCES jxl.cpp)
+    target_link_libraries(kimg_jxl PkgConfig::LibJXL PkgConfig::LibJXLThreads)
+    install(FILES jxl.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
+endif()
 
 ##################################
 
-kimageformats_add_plugin(kimg_psd JSON "psd.json" SOURCES psd.cpp)
-install(FILES psd.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+kimageformats_add_plugin(kimg_pcx SOURCES pcx.cpp)
+install(FILES pcx.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
 
 ##################################
 
-kimageformats_add_plugin(kimg_ras JSON "ras.json" SOURCES ras.cpp)
-install(FILES ras.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+kimageformats_add_plugin(kimg_pic SOURCES pic.cpp)
+install(FILES pic.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
 
 ##################################
 
-kimageformats_add_plugin(kimg_rgb JSON "rgb.json" SOURCES rgb.cpp)
-install(FILES rgb.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+kimageformats_add_plugin(kimg_psd SOURCES psd.cpp)
+install(FILES psd.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
 
 ##################################
 
-kimageformats_add_plugin(kimg_tga JSON "tga.json" SOURCES tga.cpp)
-install(FILES tga.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+kimageformats_add_plugin(kimg_ras SOURCES ras.cpp)
+install(FILES ras.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
 
 ##################################
 
-kimageformats_add_plugin(kimg_xcf JSON "xcf.json" SOURCES xcf.cpp)
-install(FILES xcf.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+kimageformats_add_plugin(kimg_rgb SOURCES rgb.cpp)
+install(FILES rgb.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
+
+##################################
+
+kimageformats_add_plugin(kimg_tga SOURCES tga.cpp)
+install(FILES tga.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
+
+##################################
+
+kimageformats_add_plugin(kimg_xcf SOURCES xcf.cpp)
+install(FILES xcf.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
 
 ##################################
 
 if (KF5Archive_FOUND)
 
-    kimageformats_add_plugin(kimg_kra JSON "kra.json" SOURCES kra.cpp)
+    kimageformats_add_plugin(kimg_kra SOURCES kra.cpp)
     target_link_libraries(kimg_kra KF5::Archive)
-    install(FILES kra.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+    install(FILES kra.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
 
-    kimageformats_add_plugin(kimg_ora JSON "ora.json" SOURCES ora.cpp)
+    kimageformats_add_plugin(kimg_ora SOURCES ora.cpp)
     target_link_libraries(kimg_ora KF5::Archive)
-    install(FILES ora.desktop DESTINATION ${KDE_INSTALL_KSERVICES5DIR}/qimageioplugins/)
+    install(FILES ora.desktop DESTINATION ${KDE_INSTALL_KSERVICESDIR}/qimageioplugins/)
 
 endif()

src/imageformats/ani.cpp

@@ -9,12 +9,13 @@
 #include <QDebug>
 #include <QImage>
 #include <QScopeGuard>
-#include <QtEndian>
 #include <QVariant>
+#include <QtEndian>
+
+#include <cstring>
 
 namespace
 {
-
 struct ChunkHeader {
     char magic[4];
     quint32_le size;
@@ -33,16 +34,16 @@ struct AniHeader {
 };
 
 struct CurHeader {
-   quint16_le wReserved; // always 0
-   quint16_le wResID; // always 2
-   quint16_le wNumImages;
+    quint16_le wReserved; // always 0
+    quint16_le wResID; // always 2
+    quint16_le wNumImages;
 };
 
 struct CursorDirEntry {
     quint8 bWidth;
     quint8 bHeight;
     quint8 bColorCount;
-    quint8 bReserved;	// always 0
+    quint8 bReserved; // always 0
     quint16_le wHotspotX;
     quint16_le wHotspotY;
     quint32_le dwBytesInImage;
@@ -64,8 +65,7 @@ bool ANIHandler::canRead() const
     const QByteArray nextFrame = device()->peek(sizeof(ChunkHeader));
     if (nextFrame.size() == sizeof(ChunkHeader)) {
         const auto *header = reinterpret_cast<const ChunkHeader *>(nextFrame.data());
-        if (qstrncmp(header->magic, "icon", sizeof(header->magic)) == 0
-                && header->size > 0) {
+        if (qstrncmp(header->magic, "icon", sizeof(header->magic)) == 0 && header->size > 0) {
             setFormat("ani");
             return true;
         }
@@ -377,8 +377,7 @@ bool ANIHandler::ensureScanned() const
             mutableThis->m_displayRate = aniHeader->iDispRate;
         } else if (chunkId == "rate" || chunkId == "seq ") {
             const QByteArray data = device()->read(chunkSize);
-            if (static_cast<quint32_le>(data.size()) != chunkSize
-                    || data.size() % sizeof(quint32_le) != 0) {
+            if (static_cast<quint32_le>(data.size()) != chunkSize || data.size() % sizeof(quint32_le) != 0) {
                 return false;
             }
 
@@ -407,8 +406,8 @@ bool ANIHandler::ensureScanned() const
                     mutableThis->m_imageSequence = list;
                 }
             }
-        // IART and INAM are technically inside LIST->INFO but "INFO" is supposedly optional
-        // so just handle those two attributes wherever we encounter them
+            // IART and INAM are technically inside LIST->INFO but "INFO" is supposedly optional
+            // so just handle those two attributes wherever we encounter them
         } else if (chunkId == "INAM" || chunkId == "IART") {
             const QByteArray value = device()->read(chunkSize);
 
@@ -422,7 +421,7 @@ bool ANIHandler::ensureScanned() const
             }
 
             // FIXME encoding
-            const QString stringValue = QString::fromLocal8Bit(value);
+            const QString stringValue = QString::fromLocal8Bit(value.constData(), std::strlen(value.constData()));
             if (chunkId == "INAM") {
                 mutableThis->m_name = stringValue;
             } else if (chunkId == "IART") {
@@ -455,8 +454,7 @@ bool ANIHandler::ensureScanned() const
                             const QByteArray curHeaderData = device()->read(sizeof(CurHeader));
                             const QByteArray cursorDirEntryData = device()->read(sizeof(CursorDirEntry));
 
-                            if (curHeaderData.length() == sizeof(CurHeader)
-                                    && cursorDirEntryData.length() == sizeof(CursorDirEntry)) {
+                            if (curHeaderData.length() == sizeof(CurHeader) && cursorDirEntryData.length() == sizeof(CursorDirEntry)) {
                                 auto *cursorDirEntry = reinterpret_cast<const CursorDirEntry *>(cursorDirEntryData.data());
                                 mutableThis->m_size = QSize(cursorDirEntry->bWidth, cursorDirEntry->bHeight);
                             }
@@ -508,7 +506,7 @@ bool ANIHandler::ensureScanned() const
         return false;
     }
 
-    if (!m_frameOffsets.isEmpty() && m_frameOffsets.count() != m_frameCount + 1) {
+    if (!m_frameOffsets.isEmpty() && m_frameOffsets.count() - 1 != m_frameCount) {
         qWarning("ANIHandler: number of actual frames does not match 'nFrames' in anih");
         return false;
     }

src/imageformats/ani_p.h

@@ -53,7 +53,6 @@ private:
     QString m_name;
     QString m_artist;
     QSize m_size;
-
 };
 
 class ANIPlugin : public QImageIOPlugin

src/imageformats/avif.cpp

@@ -6,22 +6,22 @@
     SPDX-License-Identifier: BSD-2-Clause
 */
 
-#include <QtGlobal>
 #include <QThread>
+#include <QtGlobal>
 
 #include <QColorSpace>
 
 #include "avif_p.h"
+#include <cfloat>
 
-
-QAVIFHandler::QAVIFHandler() :
-    m_parseState(ParseAvifNotParsed),
-    m_quality(52),
-    m_container_width(0),
-    m_container_height(0),
-    m_rawAvifData(AVIF_DATA_EMPTY),
-    m_decoder(nullptr),
-    m_must_jump_to_next_image(false)
+QAVIFHandler::QAVIFHandler()
+    : m_parseState(ParseAvifNotParsed)
+    , m_quality(52)
+    , m_container_width(0)
+    , m_container_height(0)
+    , m_rawAvifData(AVIF_DATA_EMPTY)
+    , m_decoder(nullptr)
+    , m_must_jump_to_next_image(false)
 {
 }
 
@@ -56,7 +56,7 @@ bool QAVIFHandler::canRead(QIODevice *device)
     }
 
     avifROData input;
-    input.data = (const uint8_t *) header.constData();
+    input.data = (const uint8_t *)header.constData();
     input.size = header.size();
 
     if (avifPeekCompatibleFileType(&input)) {
@@ -87,7 +87,7 @@ bool QAVIFHandler::ensureDecoder()
 
     m_rawData = device()->readAll();
 
-    m_rawAvifData.data = (const uint8_t *) m_rawData.constData();
+    m_rawAvifData.data = (const uint8_t *)m_rawData.constData();
     m_rawAvifData.size = m_rawData.size();
 
     if (avifPeekCompatibleFileType(&m_rawAvifData) == AVIF_FALSE) {
@@ -95,14 +95,21 @@ bool QAVIFHandler::ensureDecoder()
         return false;
     }
 
-
     m_decoder = avifDecoderCreate();
 
+#if AVIF_VERSION >= 80400
+    m_decoder->maxThreads = qBound(1, QThread::idealThreadCount(), 64);
+#endif
+
+#if AVIF_VERSION >= 90100
+    m_decoder->strictFlags = AVIF_STRICT_DISABLED;
+#endif
+
     avifResult decodeResult;
 
     decodeResult = avifDecoderSetIOMemory(m_decoder, m_rawAvifData.data, m_rawAvifData.size);
     if (decodeResult != AVIF_RESULT_OK) {
-        qWarning("ERROR: avifDecoderSetIOMemory failed: %s\n", avifResultToString(decodeResult));
+        qWarning("ERROR: avifDecoderSetIOMemory failed: %s", avifResultToString(decodeResult));
 
         avifDecoderDestroy(m_decoder);
         m_decoder = nullptr;
@@ -112,7 +119,7 @@ bool QAVIFHandler::ensureDecoder()
 
     decodeResult = avifDecoderParse(m_decoder);
     if (decodeResult != AVIF_RESULT_OK) {
-        qWarning("ERROR: Failed to parse input: %s\n", avifResultToString(decodeResult));
+        qWarning("ERROR: Failed to parse input: %s", avifResultToString(decodeResult));
 
         avifDecoderDestroy(m_decoder);
         m_decoder = nullptr;
@@ -123,11 +130,10 @@ bool QAVIFHandler::ensureDecoder()
     decodeResult = avifDecoderNextImage(m_decoder);
 
     if (decodeResult == AVIF_RESULT_OK) {
-
         m_container_width = m_decoder->image->width;
         m_container_height = m_decoder->image->height;
 
-        if ((m_container_width > 32768) || (m_container_height > 32768)) {
+        if ((m_container_width > 65535) || (m_container_height > 65535)) {
             qWarning("AVIF image (%dx%d) is too large!", m_container_width, m_container_height);
             m_parseState = ParseAvifError;
             return false;
@@ -139,6 +145,12 @@ bool QAVIFHandler::ensureDecoder()
             return false;
         }
 
+        if (m_container_width > ((16384 * 16384) / m_container_height)) {
+            qWarning("AVIF image (%dx%d) has more than 256 megapixels!", m_container_width, m_container_height);
+            m_parseState = ParseAvifError;
+            return false;
+        }
+
         m_parseState = ParseAvifSuccess;
         if (decode_one_frame()) {
             return true;
@@ -147,7 +159,7 @@ bool QAVIFHandler::ensureDecoder()
             return false;
         }
     } else {
-        qWarning("ERROR: Failed to decode image: %s\n", avifResultToString(decodeResult));
+        qWarning("ERROR: Failed to decode image: %s", avifResultToString(decodeResult));
     }
 
     avifDecoderDestroy(m_decoder);
@@ -182,7 +194,7 @@ bool QAVIFHandler::decode_one_frame()
         if (loadalpha) {
             resultformat = QImage::Format_RGBA8888;
         } else {
-            resultformat = QImage::Format_RGB888;
+            resultformat = QImage::Format_RGBX8888;
         }
     }
     QImage result(m_decoder->image->width, m_decoder->image->height, resultformat);
@@ -192,20 +204,22 @@ bool QAVIFHandler::decode_one_frame()
         return false;
     }
 
+    QColorSpace colorspace;
     if (m_decoder->image->icc.data && (m_decoder->image->icc.size > 0)) {
-        result.setColorSpace(QColorSpace::fromIccProfile(QByteArray::fromRawData((const char *) m_decoder->image->icc.data, (int) m_decoder->image->icc.size)));
-        if (! result.colorSpace().isValid()) {
-            qWarning("Invalid QColorSpace created from ICC!\n");
+        const QByteArray icc_data((const char *)m_decoder->image->icc.data, (int)m_decoder->image->icc.size);
+        colorspace = QColorSpace::fromIccProfile(icc_data);
+        if (!colorspace.isValid()) {
+            qWarning("AVIF image has Qt-unsupported or invalid ICC profile!");
         }
     } else {
-        float prim[8]; // outPrimaries: rX, rY, gX, gY, bX, bY, wX, wY
+        float prim[8] = {0.64f, 0.33f, 0.3f, 0.6f, 0.15f, 0.06f, 0.3127f, 0.329f};
+        // outPrimaries: rX, rY, gX, gY, bX, bY, wX, wY
         avifColorPrimariesGetValues(m_decoder->image->colorPrimaries, prim);
 
-        QPointF redPoint(prim[0], prim[1]);
-        QPointF greenPoint(prim[2], prim[3]);
-        QPointF bluePoint(prim[4], prim[5]);
-        QPointF whitePoint(prim[6], prim[7]);
-
+        const QPointF redPoint(QAVIFHandler::CompatibleChromacity(prim[0], prim[1]));
+        const QPointF greenPoint(QAVIFHandler::CompatibleChromacity(prim[2], prim[3]));
+        const QPointF bluePoint(QAVIFHandler::CompatibleChromacity(prim[4], prim[5]));
+        const QPointF whitePoint(QAVIFHandler::CompatibleChromacity(prim[6], prim[7]));
 
         QColorSpace::TransferFunction q_trc = QColorSpace::TransferFunction::Custom;
         float q_trc_gamma = 0.0f;
@@ -229,38 +243,41 @@ bool QAVIFHandler::decode_one_frame()
         case 0:
         case 2: /* AVIF_TRANSFER_CHARACTERISTICS_UNSPECIFIED */
         case 13:
-            q_trc =  QColorSpace::TransferFunction::SRgb;
+            q_trc = QColorSpace::TransferFunction::SRgb;
             break;
         default:
             qWarning("CICP colorPrimaries: %d, transferCharacteristics: %d\nThe colorspace is unsupported by this plug-in yet.",
-                     m_decoder->image->colorPrimaries, m_decoder->image->transferCharacteristics);
+                     m_decoder->image->colorPrimaries,
+                     m_decoder->image->transferCharacteristics);
             q_trc = QColorSpace::TransferFunction::SRgb;
             break;
         }
 
-        if (q_trc != QColorSpace::TransferFunction::Custom) {   //we create new colorspace using Qt
+        if (q_trc != QColorSpace::TransferFunction::Custom) { // we create new colorspace using Qt
             switch (m_decoder->image->colorPrimaries) {
             /* AVIF_COLOR_PRIMARIES_BT709 */
             case 0:
             case 1:
             case 2: /* AVIF_COLOR_PRIMARIES_UNSPECIFIED */
-                result.setColorSpace(QColorSpace(QColorSpace::Primaries::SRgb, q_trc, q_trc_gamma));
+                colorspace = QColorSpace(QColorSpace::Primaries::SRgb, q_trc, q_trc_gamma);
                 break;
             /* AVIF_COLOR_PRIMARIES_SMPTE432 */
             case 12:
-                result.setColorSpace(QColorSpace(QColorSpace::Primaries::DciP3D65, q_trc, q_trc_gamma));
+                colorspace = QColorSpace(QColorSpace::Primaries::DciP3D65, q_trc, q_trc_gamma);
                 break;
             default:
-                result.setColorSpace(QColorSpace(whitePoint, redPoint, greenPoint, bluePoint, q_trc, q_trc_gamma));
+                colorspace = QColorSpace(whitePoint, redPoint, greenPoint, bluePoint, q_trc, q_trc_gamma);
                 break;
             }
         }
 
-        if (! result.colorSpace().isValid()) {
-            qWarning("Invalid QColorSpace created from NCLX/CICP!\n");
+        if (!colorspace.isValid()) {
+            qWarning("AVIF plugin created invalid QColorSpace from NCLX/CICP!");
         }
     }
 
+    result.setColorSpace(colorspace);
+
     avifRGBImage rgb;
     avifRGBImageSetDefaults(&rgb, m_decoder->image);
 
@@ -269,20 +286,24 @@ bool QAVIFHandler::decode_one_frame()
         rgb.format = AVIF_RGB_FORMAT_RGBA;
 
         if (!loadalpha) {
-            rgb.ignoreAlpha = AVIF_TRUE;
-            result.fill(Qt::black);
             if (m_decoder->image->yuvFormat == AVIF_PIXEL_FORMAT_YUV400) {
                 resultformat = QImage::Format_Grayscale16;
             }
         }
     } else {
         rgb.depth = 8;
+        rgb.format = AVIF_RGB_FORMAT_RGBA;
+
+#if AVIF_VERSION >= 80400
+        if (m_decoder->imageCount > 1) {
+            /* accelerate animated AVIF */
+            rgb.chromaUpsampling = AVIF_CHROMA_UPSAMPLING_FASTEST;
+        }
+#endif
+
         if (loadalpha) {
-            rgb.format = AVIF_RGB_FORMAT_RGBA;
             resultformat = QImage::Format_ARGB32;
         } else {
-            rgb.format = AVIF_RGB_FORMAT_RGB;
-
             if (m_decoder->image->yuvFormat == AVIF_PIXEL_FORMAT_YUV400) {
                 resultformat = QImage::Format_Grayscale8;
             } else {
@@ -296,37 +317,34 @@ bool QAVIFHandler::decode_one_frame()
 
     avifResult res = avifImageYUVToRGB(m_decoder->image, &rgb);
     if (res != AVIF_RESULT_OK) {
-        qWarning("ERROR in avifImageYUVToRGB: %s\n", avifResultToString(res));
+        qWarning("ERROR in avifImageYUVToRGB: %s", avifResultToString(res));
         return false;
     }
 
     if (m_decoder->image->transformFlags & AVIF_TRANSFORM_CLAP) {
-        if ((m_decoder->image->clap.widthD > 0) && (m_decoder->image->clap.heightD > 0) &&
-                (m_decoder->image->clap.horizOffD > 0) && (m_decoder->image->clap.vertOffD > 0)) {
-            int  new_width, new_height, offx, offy;
-
-            new_width = (int)((double)(m_decoder->image->clap.widthN)  / (m_decoder->image->clap.widthD) + 0.5);
+        if ((m_decoder->image->clap.widthD > 0) && (m_decoder->image->clap.heightD > 0) && (m_decoder->image->clap.horizOffD > 0)
+            && (m_decoder->image->clap.vertOffD > 0)) {
+            int new_width = (int)((double)(m_decoder->image->clap.widthN) / (m_decoder->image->clap.widthD) + 0.5);
             if (new_width > result.width()) {
                 new_width = result.width();
             }
 
-            new_height = (int)((double)(m_decoder->image->clap.heightN) / (m_decoder->image->clap.heightD) + 0.5);
+            int new_height = (int)((double)(m_decoder->image->clap.heightN) / (m_decoder->image->clap.heightD) + 0.5);
             if (new_height > result.height()) {
                 new_height = result.height();
             }
 
             if (new_width > 0 && new_height > 0) {
-
-                offx = ((double)((int32_t) m_decoder->image->clap.horizOffN)) / (m_decoder->image->clap.horizOffD) +
-                       (result.width() - new_width) / 2.0 + 0.5;
+                int offx =
+                    ((double)((int32_t)m_decoder->image->clap.horizOffN)) / (m_decoder->image->clap.horizOffD) + (result.width() - new_width) / 2.0 + 0.5;
                 if (offx < 0) {
                     offx = 0;
                 } else if (offx > (result.width() - new_width)) {
                     offx = result.width() - new_width;
                 }
 
-                offy = ((double)((int32_t) m_decoder->image->clap.vertOffN)) / (m_decoder->image->clap.vertOffD) +
-                       (result.height() - new_height) / 2.0 + 0.5;
+                int offy =
+                    ((double)((int32_t)m_decoder->image->clap.vertOffN)) / (m_decoder->image->clap.vertOffD) + (result.height() - new_height) / 2.0 + 0.5;
                 if (offy < 0) {
                     offy = 0;
                 } else if (offy > (result.height() - new_height)) {
@@ -337,8 +355,8 @@ bool QAVIFHandler::decode_one_frame()
             }
         }
 
-        else { //Zero values, we need to avoid 0 divide.
-            qWarning("ERROR: Wrong values in avifCleanApertureBox\n");
+        else { // Zero values, we need to avoid 0 divide.
+            qWarning("ERROR: Wrong values in avifCleanApertureBox");
         }
     }
 
@@ -361,11 +379,15 @@ bool QAVIFHandler::decode_one_frame()
     }
 
     if (m_decoder->image->transformFlags & AVIF_TRANSFORM_IMIR) {
+#if AVIF_VERSION > 90100
+        switch (m_decoder->image->imir.mode) {
+#else
         switch (m_decoder->image->imir.axis) {
-        case 0: //vertical
+#endif
+        case 0: // top-to-bottom
             result = result.mirrored(false, true);
             break;
-        case 1: //horizontal
+        case 1: // left-to-right
             result = result.mirrored(true, false);
             break;
         }
@@ -401,27 +423,51 @@ bool QAVIFHandler::read(QImage *image)
 bool QAVIFHandler::write(const QImage &image)
 {
     if (image.format() == QImage::Format_Invalid) {
-        qWarning("No image data to save");
+        qWarning("No image data to save!");
         return false;
     }
 
-    if ((image.width() > 32768) || (image.height() > 32768)) {
-        qWarning("Image is too large");
+    if ((image.width() > 0) && (image.height() > 0)) {
+        if ((image.width() > 65535) || (image.height() > 65535)) {
+            qWarning("Image (%dx%d) is too large to save!", image.width(), image.height());
+            return false;
+        }
+
+        if (image.width() > ((16384 * 16384) / image.height())) {
+            qWarning("Image (%dx%d) will not be saved because it has more than 256 megapixels!", image.width(), image.height());
+            return false;
+        }
+
+        if ((image.width() > 32768) || (image.height() > 32768)) {
+            qWarning("Image (%dx%d) has a dimension above 32768 pixels, saved AVIF may not work in other software!", image.width(), image.height());
+        }
+    } else {
+        qWarning("Image has zero dimension!");
         return false;
     }
 
+    const char *encoder_name = avifCodecName(AVIF_CODEC_CHOICE_AUTO, AVIF_CODEC_FLAG_CAN_ENCODE);
+    if (!encoder_name) {
+        qWarning("Cannot save AVIF images because libavif was built without AV1 encoders!");
+        return false;
+    }
+
+    if (m_quality >= 100 && !avifCodecName(AVIF_CODEC_CHOICE_AOM, AVIF_CODEC_FLAG_CAN_ENCODE)) {
+        qWarning("You are using %s encoder. It is recommended to enable libAOM encoder in libavif for better near-lossless compression.", encoder_name);
+    }
+
     int maxQuantizer = AVIF_QUANTIZER_WORST_QUALITY * (100 - qBound(0, m_quality, 100)) / 100;
     int minQuantizer = 0;
     int maxQuantizerAlpha = 0;
     avifResult res;
 
-    bool save_grayscale; //true - monochrome, false - colors
-    int save_depth; //8 or 10bit per channel
-    QImage::Format tmpformat; //format for temporary image
+    bool save_grayscale; // true - monochrome, false - colors
+    int save_depth; // 8 or 10bit per channel
+    QImage::Format tmpformat; // format for temporary image
 
     avifImage *avif = nullptr;
 
-    //grayscale detection
+    // grayscale detection
     switch (image.format()) {
     case QImage::Format_Mono:
     case QImage::Format_MonoLSB:
@@ -437,7 +483,7 @@ bool QAVIFHandler::write(const QImage &image)
         break;
     }
 
-    //depth detection
+    // depth detection
     switch (image.format()) {
     case QImage::Format_BGR30:
     case QImage::Format_A2BGR30_Premultiplied:
@@ -458,15 +504,15 @@ bool QAVIFHandler::write(const QImage &image)
         break;
     }
 
-    //quality settings
+    // quality settings
     if (maxQuantizer > 20) {
         minQuantizer = maxQuantizer - 20;
-        if (maxQuantizer > 40) { //we decrease quality of alpha channel here
+        if (maxQuantizer > 40) { // we decrease quality of alpha channel here
             maxQuantizerAlpha = maxQuantizer - 40;
         }
     }
 
-    if (save_grayscale && !image.hasAlphaChannel()) { //we are going to save grayscale image without alpha channel
+    if (save_grayscale && !image.hasAlphaChannel()) { // we are going to save grayscale image without alpha channel
         if (save_depth > 8) {
             tmpformat = QImage::Format_Grayscale16;
         } else {
@@ -494,7 +540,6 @@ bool QAVIFHandler::write(const QImage &image)
                 /* AVIF_TRANSFER_CHARACTERISTICS_UNSPECIFIED */
                 break;
             }
-
         }
 
         if (save_depth > 8) { // QImage::Format_Grayscale16
@@ -502,7 +547,7 @@ bool QAVIFHandler::write(const QImage &image)
                 const uint16_t *src16bit = reinterpret_cast<const uint16_t *>(tmpgrayimage.constScanLine(y));
                 uint16_t *dest16bit = reinterpret_cast<uint16_t *>(avif->yuvPlanes[0] + y * avif->yuvRowBytes[0]);
                 for (int x = 0; x < tmpgrayimage.width(); x++) {
-                    int tmp_pixelval = (int)(((float)(*src16bit) / 65535.0f) * 1023.0f + 0.5f); //downgrade to 10 bits
+                    int tmp_pixelval = (int)(((float)(*src16bit) / 65535.0f) * 1023.0f + 0.5f); // downgrade to 10 bits
                     *dest16bit = qBound(0, tmp_pixelval, 1023);
                     dest16bit++;
                     src16bit++;
@@ -520,14 +565,14 @@ bool QAVIFHandler::write(const QImage &image)
             }
         }
 
-    } else { //we are going to save color image
+    } else { // we are going to save color image
         if (save_depth > 8) {
             if (image.hasAlphaChannel()) {
                 tmpformat = QImage::Format_RGBA64;
             } else {
                 tmpformat = QImage::Format_RGBX64;
             }
-        } else { //8bit depth
+        } else { // 8bit depth
             if (image.hasAlphaChannel()) {
                 tmpformat = QImage::Format_RGBA8888;
             } else {
@@ -540,16 +585,17 @@ bool QAVIFHandler::write(const QImage &image)
         avifPixelFormat pixel_format = AVIF_PIXEL_FORMAT_YUV420;
         if (maxQuantizer < 20) {
             if (maxQuantizer < 10) {
-                pixel_format = AVIF_PIXEL_FORMAT_YUV444; //best quality
+                pixel_format = AVIF_PIXEL_FORMAT_YUV444; // best quality
             } else {
-                pixel_format = AVIF_PIXEL_FORMAT_YUV422; //high quality
+                pixel_format = AVIF_PIXEL_FORMAT_YUV422; // high quality
             }
         }
 
-        avifMatrixCoefficients matrix_to_save = (avifMatrixCoefficients)1; //default for Qt 5.12 and 5.13;
+        avifMatrixCoefficients matrix_to_save = (avifMatrixCoefficients)1; // default for Qt 5.12 and 5.13;
 
         avifColorPrimaries primaries_to_save = (avifColorPrimaries)2;
         avifTransferCharacteristics transfer_to_save = (avifTransferCharacteristics)2;
+        QByteArray iccprofile;
 
         if (tmpcolorimage.colorSpace().isValid()) {
             switch (tmpcolorimage.colorSpace().primaries()) {
@@ -600,11 +646,9 @@ bool QAVIFHandler::write(const QImage &image)
                 break;
             }
 
-            //in case primaries or trc were not identified
-            if ((primaries_to_save == 2) ||
-                    (transfer_to_save == 2)) {
-
-                //upgrade image to higher bit depth
+            // in case primaries or trc were not identified
+            if ((primaries_to_save == 2) || (transfer_to_save == 2)) {
+                // upgrade image to higher bit depth
                 if (save_depth == 8) {
                     save_depth = 10;
                     if (tmpcolorimage.hasAlphaChannel()) {
@@ -614,8 +658,7 @@ bool QAVIFHandler::write(const QImage &image)
                     }
                 }
 
-                if ((primaries_to_save == 2) &&
-                        (transfer_to_save != 2)) {    //other primaries but known trc
+                if ((primaries_to_save == 2) && (transfer_to_save != 2)) { // other primaries but known trc
                     primaries_to_save = (avifColorPrimaries)1; // AVIF_COLOR_PRIMARIES_BT709
                     matrix_to_save = (avifMatrixCoefficients)1; // AVIF_MATRIX_COEFFICIENTS_BT709
 
@@ -634,30 +677,39 @@ bool QAVIFHandler::write(const QImage &image)
                         transfer_to_save = (avifTransferCharacteristics)13;
                         break;
                     }
-                } else if ((primaries_to_save != 2) &&
-                           (transfer_to_save == 2)) {    //recognized primaries but other trc
+                } else if ((primaries_to_save != 2) && (transfer_to_save == 2)) { // recognized primaries but other trc
                     transfer_to_save = (avifTransferCharacteristics)13;
                     tmpcolorimage.convertToColorSpace(tmpcolorimage.colorSpace().withTransferFunction(QColorSpace::TransferFunction::SRgb));
-                } else { //unrecognized profile
+                } else { // unrecognized profile
                     primaries_to_save = (avifColorPrimaries)1; // AVIF_COLOR_PRIMARIES_BT709
                     transfer_to_save = (avifTransferCharacteristics)13;
                     matrix_to_save = (avifMatrixCoefficients)1; // AVIF_MATRIX_COEFFICIENTS_BT709
                     tmpcolorimage.convertToColorSpace(QColorSpace(QColorSpace::Primaries::SRgb, QColorSpace::TransferFunction::SRgb));
                 }
             }
+        } else { // profile is unsupported by Qt
+            iccprofile = tmpcolorimage.colorSpace().iccProfile();
+            if (iccprofile.size() > 0) {
+                matrix_to_save = (avifMatrixCoefficients)6;
+            }
         }
+
         avif = avifImageCreate(tmpcolorimage.width(), tmpcolorimage.height(), save_depth, pixel_format);
         avif->matrixCoefficients = matrix_to_save;
 
         avif->colorPrimaries = primaries_to_save;
         avif->transferCharacteristics = transfer_to_save;
 
+        if (iccprofile.size() > 0) {
+            avifImageSetProfileICC(avif, (const uint8_t *)iccprofile.constData(), iccprofile.size());
+        }
+
         avifRGBImage rgb;
         avifRGBImageSetDefaults(&rgb, avif);
         rgb.rowBytes = tmpcolorimage.bytesPerLine();
         rgb.pixels = const_cast<uint8_t *>(tmpcolorimage.constBits());
 
-        if (save_depth > 8) { //10bit depth
+        if (save_depth > 8) { // 10bit depth
             rgb.depth = 16;
 
             if (tmpcolorimage.hasAlphaChannel()) {
@@ -667,7 +719,7 @@ bool QAVIFHandler::write(const QImage &image)
             }
 
             rgb.format = AVIF_RGB_FORMAT_RGBA;
-        } else { //8bit depth
+        } else { // 8bit depth
             rgb.depth = 8;
 
             if (tmpcolorimage.hasAlphaChannel()) {
@@ -680,7 +732,7 @@ bool QAVIFHandler::write(const QImage &image)
 
         res = avifImageRGBToYUV(avif, &rgb);
         if (res != AVIF_RESULT_OK) {
-            qWarning("ERROR in avifImageRGBToYUV: %s\n", avifResultToString(res));
+            qWarning("ERROR in avifImageRGBToYUV: %s", avifResultToString(res));
             return false;
         }
     }
@@ -696,7 +748,7 @@ bool QAVIFHandler::write(const QImage &image)
         encoder->maxQuantizerAlpha = maxQuantizerAlpha;
     }
 
-    encoder->speed = 8;
+    encoder->speed = 6;
 
     res = avifEncoderWrite(encoder, avif, &raw);
     avifEncoderDestroy(encoder);
@@ -709,26 +761,27 @@ bool QAVIFHandler::write(const QImage &image)
         if (status > 0) {
             return true;
         } else if (status == -1) {
-            qWarning("Write error: %s\n", qUtf8Printable(device()->errorString()));
+            qWarning("Write error: %s", qUtf8Printable(device()->errorString()));
             return false;
         }
     } else {
-        qWarning("ERROR: Failed to encode: %s\n", avifResultToString(res));
+        qWarning("ERROR: Failed to encode: %s", avifResultToString(res));
     }
 
     return false;
 }
 
-
 QVariant QAVIFHandler::option(ImageOption option) const
 {
+    if (option == Quality) {
+        return m_quality;
+    }
+
     if (!supportsOption(option) || !ensureParsed()) {
         return QVariant();
     }
 
     switch (option) {
-    case Quality:
-        return m_quality;
     case Size:
         return m_current_image.size();
     case Animation:
@@ -761,9 +814,7 @@ void QAVIFHandler::setOption(ImageOption option, const QVariant &value)
 
 bool QAVIFHandler::supportsOption(ImageOption option) const
 {
-    return option == Quality
-           || option == Size
-           || option == Animation;
+    return option == Quality || option == Size || option == Animation;
 }
 
 int QAVIFHandler::imageCount() const
@@ -801,23 +852,24 @@ bool QAVIFHandler::jumpToNextImage()
         return true;
     }
 
-    if (m_decoder->imageIndex >= m_decoder->imageCount - 1) {   //start from begining
+    if (m_decoder->imageIndex >= m_decoder->imageCount - 1) { // start from beginning
         avifDecoderReset(m_decoder);
     }
 
     avifResult decodeResult = avifDecoderNextImage(m_decoder);
 
     if (decodeResult != AVIF_RESULT_OK) {
-        qWarning("ERROR: Failed to decode Next image in sequence: %s\n", avifResultToString(decodeResult));
+        qWarning("ERROR: Failed to decode Next image in sequence: %s", avifResultToString(decodeResult));
         m_parseState = ParseAvifError;
         return false;
     }
 
-    if ((m_container_width != m_decoder->image->width) ||
-            (m_container_height != m_decoder->image->height)) {
-        qWarning("Decoded image sequence size (%dx%d) do not match first image size (%dx%d)!\n",
-                 m_decoder->image->width, m_decoder->image->height,
-                 m_container_width, m_container_height);
+    if ((m_container_width != m_decoder->image->width) || (m_container_height != m_decoder->image->height)) {
+        qWarning("Decoded image sequence size (%dx%d) do not match first image size (%dx%d)!",
+                 m_decoder->image->width,
+                 m_decoder->image->height,
+                 m_container_width,
+                 m_container_height);
 
         m_parseState = ParseAvifError;
         return false;
@@ -829,7 +881,6 @@ bool QAVIFHandler::jumpToNextImage()
         m_parseState = ParseAvifError;
         return false;
     }
-
 }
 
 bool QAVIFHandler::jumpToImage(int imageNumber)
@@ -838,7 +889,7 @@ bool QAVIFHandler::jumpToImage(int imageNumber)
         return false;
     }
 
-    if (m_decoder->imageCount < 2) {   //not an animation
+    if (m_decoder->imageCount < 2) { // not an animation
         if (imageNumber == 0) {
             return true;
         } else {
@@ -846,27 +897,29 @@ bool QAVIFHandler::jumpToImage(int imageNumber)
         }
     }
 
-    if (imageNumber < 0 || imageNumber >= m_decoder->imageCount) {   //wrong index
+    if (imageNumber < 0 || imageNumber >= m_decoder->imageCount) { // wrong index
         return false;
     }
 
-    if (imageNumber == m_decoder->imageCount) {   // we are here already
+    if (imageNumber == m_decoder->imageIndex) { // we are here already
+        m_must_jump_to_next_image = false;
         return true;
     }
 
     avifResult decodeResult = avifDecoderNthImage(m_decoder, imageNumber);
 
     if (decodeResult != AVIF_RESULT_OK) {
-        qWarning("ERROR: Failed to decode %d th Image in sequence: %s\n", imageNumber, avifResultToString(decodeResult));
+        qWarning("ERROR: Failed to decode %d th Image in sequence: %s", imageNumber, avifResultToString(decodeResult));
         m_parseState = ParseAvifError;
         return false;
     }
 
-    if ((m_container_width != m_decoder->image->width) ||
-            (m_container_height != m_decoder->image->height)) {
-        qWarning("Decoded image sequence size (%dx%d) do not match declared container size (%dx%d)!\n",
-                 m_decoder->image->width, m_decoder->image->height,
-                 m_container_width, m_container_height);
+    if ((m_container_width != m_decoder->image->width) || (m_container_height != m_decoder->image->height)) {
+        qWarning("Decoded image sequence size (%dx%d) do not match declared container size (%dx%d)!",
+                 m_decoder->image->width,
+                 m_decoder->image->height,
+                 m_container_width,
+                 m_container_height);
 
         m_parseState = ParseAvifError;
         return false;
@@ -910,6 +963,18 @@ int QAVIFHandler::loopCount() const
     return 1;
 }
 
+QPointF QAVIFHandler::CompatibleChromacity(qreal chrX, qreal chrY)
+{
+    chrX = qBound(qreal(0.0), chrX, qreal(1.0));
+    chrY = qBound(qreal(DBL_MIN), chrY, qreal(1.0));
+
+    if ((chrX + chrY) > qreal(1.0)) {
+        chrX = qreal(1.0) - chrY;
+    }
+
+    return QPointF(chrX, chrY);
+}
+
 QImageIOPlugin::Capabilities QAVIFPlugin::capabilities(QIODevice *device, const QByteArray &format) const
 {
     if (format == "avif") {

src/imageformats/avif.json

@@ -1,4 +1,4 @@
 {
     "Keys": [ "avif", "avifs" ],
-    "MimeTypes": [ "image/avif", "image/avif-sequence" ]
+    "MimeTypes": [ "image/avif", "image/avif" ]
 }

src/imageformats/avif_p.h

@@ -9,72 +9,74 @@
 #ifndef KIMG_AVIF_P_H
 #define KIMG_AVIF_P_H
 
-#include <QImage>
-#include <QVariant>
-#include <qimageiohandler.h>
-#include <QImageIOPlugin>
 #include <QByteArray>
+#include <QImage>
+#include <QImageIOPlugin>
+#include <QPointF>
+#include <QVariant>
 #include <avif/avif.h>
+#include <qimageiohandler.h>
 
 class QAVIFHandler : public QImageIOHandler
 {
 public:
-  QAVIFHandler();
-  ~QAVIFHandler();
+    QAVIFHandler();
+    ~QAVIFHandler();
 
-  bool canRead() const override;
-  bool read (QImage *image) override;
-  bool write (const QImage &image) override;
+    bool canRead() const override;
+    bool read(QImage *image) override;
+    bool write(const QImage &image) override;
 
-  static bool canRead (QIODevice *device);
+    static bool canRead(QIODevice *device);
 
-  QVariant option (ImageOption option) const override;
-  void setOption (ImageOption option, const QVariant &value) override;
-  bool supportsOption (ImageOption option) const override;
+    QVariant option(ImageOption option) const override;
+    void setOption(ImageOption option, const QVariant &value) override;
+    bool supportsOption(ImageOption option) const override;
 
-  int imageCount() const override;
-  int currentImageNumber() const override;
-  bool jumpToNextImage() override;
-  bool jumpToImage (int imageNumber) override;
+    int imageCount() const override;
+    int currentImageNumber() const override;
+    bool jumpToNextImage() override;
+    bool jumpToImage(int imageNumber) override;
 
-  int nextImageDelay() const override;
+    int nextImageDelay() const override;
+
+    int loopCount() const override;
 
-  int loopCount() const override;
 private:
-  bool ensureParsed() const;
-  bool ensureDecoder();
-  bool decode_one_frame();
+    static QPointF CompatibleChromacity(qreal chrX, qreal chrY);
+    bool ensureParsed() const;
+    bool ensureDecoder();
+    bool decode_one_frame();
 
-  enum ParseAvifState
-  {
-    ParseAvifError = -1,
-    ParseAvifNotParsed = 0,
-    ParseAvifSuccess = 1
-  };
+    enum ParseAvifState {
+        ParseAvifError = -1,
+        ParseAvifNotParsed = 0,
+        ParseAvifSuccess = 1,
+    };
 
-  ParseAvifState m_parseState;
-  int m_quality;
+    ParseAvifState m_parseState;
+    int m_quality;
 
-  uint32_t m_container_width;
-  uint32_t m_container_height;
+    uint32_t m_container_width;
+    uint32_t m_container_height;
 
-  QByteArray m_rawData;
-  avifROData m_rawAvifData;
+    QByteArray m_rawData;
+    avifROData m_rawAvifData;
 
-  avifDecoder *m_decoder;
-  QImage        m_current_image;
+    avifDecoder *m_decoder;
+    QImage m_current_image;
 
-  bool m_must_jump_to_next_image;
+    bool m_must_jump_to_next_image;
 };
 
 class QAVIFPlugin : public QImageIOPlugin
 {
-  Q_OBJECT
-  Q_PLUGIN_METADATA (IID "org.qt-project.Qt.QImageIOHandlerFactoryInterface" FILE "avif.json")
+    Q_OBJECT
+    Q_PLUGIN_METADATA(IID "org.qt-project.Qt.QImageIOHandlerFactoryInterface" FILE "avif.json")
 
 public:
-  Capabilities capabilities (QIODevice *device, const QByteArray &format) const override;
-  QImageIOHandler *create (QIODevice *device, const QByteArray &format = QByteArray()) const override;
+    Capabilities capabilities(QIODevice *device, const QByteArray &format) const override;
+    QImageIOHandler *create(QIODevice *device, const QByteArray &format = QByteArray()) const override;
 };
 
 #endif // KIMG_AVIF_P_H

src/imageformats/eps.cpp

@@ -9,13 +9,14 @@
 */
 #include "eps_p.h"
 
+#include <QCoreApplication>
 #include <QImage>
 #include <QImageReader>
 #include <QPainter>
 #include <QPrinter>
 #include <QProcess>
+#include <QStandardPaths>
 #include <QTemporaryFile>
-#include <QCoreApplication>
 
 // logging category for this framework, default: log stuff >= warning
 Q_LOGGING_CATEGORY(EPSPLUGIN, "kf.imageformats.plugins.eps", QtWarningMsg)
@@ -51,19 +52,13 @@ static bool seekToCodeStart(QIODevice *io, qint64 &ps_offset, qint64 &ps_size)
                 return false;
             }
             ps_offset // Offset is in little endian
-                = qint64(((unsigned char)buf[0])
-                         + ((unsigned char)buf[1] << 8)
-                         + ((unsigned char)buf[2] << 16)
-                         + ((unsigned char)buf[3] << 24));
+                = qint64(((unsigned char)buf[0]) + ((unsigned char)buf[1] << 8) + ((unsigned char)buf[2] << 16) + ((unsigned char)buf[3] << 24));
             if (io->read(buf, 4) != 4) { // Get size of PostScript code in the MS-DOS EPS file.
                 qCDebug(EPSPLUGIN) << "cannot read size of MS-DOS EPS file";
                 return false;
             }
             ps_size // Size is in little endian
-                = qint64(((unsigned char)buf[0])
-                         + ((unsigned char)buf[1] << 8)
-                         + ((unsigned char)buf[2] << 16)
-                         + ((unsigned char)buf[3] << 24));
+                = qint64(((unsigned char)buf[0]) + ((unsigned char)buf[1] << 8) + ((unsigned char)buf[2] << 16) + ((unsigned char)buf[3] << 24));
             qCDebug(EPSPLUGIN) << "Offset: " << ps_offset << " Size: " << ps_size;
             if (!io->seek(ps_offset)) { // Get offset of PostScript code in the MS-DOS EPS file.
                 qCDebug(EPSPLUGIN) << "cannot seek in MS-DOS EPS file";
@@ -100,9 +95,11 @@ static bool bbox(QIODevice *io, int *x1, int *y1, int *x2, int *y2)
         if (strncmp(buf, BBOX, BBOX_LEN) == 0) {
             // Some EPS files have non-integer values for the bbox
             // We don't support that currently, but at least we parse it
-            float _x1, _y1, _x2, _y2;
-            if (sscanf(buf, "%*s %f %f %f %f",
-                       &_x1, &_y1, &_x2, &_y2) == 4) {
+            float _x1;
+            float _y1;
+            float _x2;
+            float _y2;
+            if (sscanf(buf, "%*s %f %f %f %f", &_x1, &_y1, &_x2, &_y2) == 4) {
                 qCDebug(EPSPLUGIN) << "BBOX: " << _x1 << " " << _y1 << " " << _x2 << " " << _y2;
                 *x1 = int(_x1);
                 *y1 = int(_y1);
@@ -134,14 +131,18 @@ bool EPSHandler::read(QImage *image)
 {
     qCDebug(EPSPLUGIN) << "starting...";
 
-    int x1, y1, x2, y2;
+    int x1;
+    int y1;
+    int x2;
+    int y2;
 #ifdef EPS_PERFORMANCE_DEBUG
     QTime dt;
     dt.start();
 #endif
 
     QIODevice *io = device();
-    qint64 ps_offset, ps_size;
+    qint64 ps_offset;
+    qint64 ps_size;
 
     // find start of PostScript code
     if (!seekToCodeStart(io, ps_offset, ps_size)) {
@@ -176,29 +177,29 @@ bool EPSHandler::read(QImage *image)
 
     // create GS command line
 
+    const QString gsExec = QStandardPaths::findExecutable(QStringLiteral("gs"));
+    if (gsExec.isEmpty()) {
+        qCWarning(EPSPLUGIN) << "Couldn't find gs exectuable (from GhostScript) in PATH.";
+        return false;
+    }
+
     QStringList gsArgs;
-    gsArgs << QLatin1String("-sOutputFile=") + tmpFile.fileName()
-           << QStringLiteral("-q")
-           << QStringLiteral("-g%1x%2").arg(wantedWidth).arg(wantedHeight)
-           << QStringLiteral("-dSAFER")
-           << QStringLiteral("-dPARANOIDSAFER")
-           << QStringLiteral("-dNOPAUSE")
-           << QStringLiteral("-sDEVICE=ppm")
+    gsArgs << QLatin1String("-sOutputFile=") + tmpFile.fileName() << QStringLiteral("-q") << QStringLiteral("-g%1x%2").arg(wantedWidth).arg(wantedHeight)
+           << QStringLiteral("-dSAFER") << QStringLiteral("-dPARANOIDSAFER") << QStringLiteral("-dNOPAUSE") << QStringLiteral("-sDEVICE=ppm")
            << QStringLiteral("-c")
-           << QStringLiteral("0 0 moveto "
-                             "1000 0 lineto "
-                             "1000 1000 lineto "
-                             "0 1000 lineto "
-                             "1 1 254 255 div setrgbcolor fill "
-                             "0 0 0 setrgbcolor")
-           << QStringLiteral("-")
-           << QStringLiteral("-c")
-           << QStringLiteral("showpage quit");
+           << QStringLiteral(
+                  "0 0 moveto "
+                  "1000 0 lineto "
+                  "1000 1000 lineto "
+                  "0 1000 lineto "
+                  "1 1 254 255 div setrgbcolor fill "
+                  "0 0 0 setrgbcolor")
+           << QStringLiteral("-") << QStringLiteral("-c") << QStringLiteral("showpage quit");
     qCDebug(EPSPLUGIN) << "Running gs with args" << gsArgs;
 
     QProcess converter;
     converter.setProcessChannelMode(QProcess::ForwardedErrorChannel);
-    converter.start(QStringLiteral("gs"), gsArgs);
+    converter.start(gsExec, gsArgs);
     if (!converter.waitForStarted(3000)) {
         qCWarning(EPSPLUGIN) << "Reading EPS files requires gs (from GhostScript)";
         return false;
@@ -264,7 +265,8 @@ bool EPSHandler::write(const QImage &image)
     psOut.setOutputFileName(tmpFile.fileName());
     psOut.setOutputFormat(QPrinter::PdfFormat);
     psOut.setFullPage(true);
-    psOut.setPaperSize(image.size(), QPrinter::DevicePixel);
+    const double multiplier = psOut.resolution() <= 0 ? 1.0 : 72.0 / psOut.resolution();
+    psOut.setPageSize(QPageSize(image.size() * multiplier, QPageSize::Point));
 
     // painting the pixmap to the "printer" which is a file
     p.begin(&psOut);
@@ -277,24 +279,16 @@ bool EPSHandler::write(const QImage &image)
 
     // pdftops comes with Poppler and produces much smaller EPS files than GhostScript
     QStringList pdftopsArgs;
-    pdftopsArgs << QStringLiteral("-eps")
-                << tmpFile.fileName()
-                << QStringLiteral("-");
+    pdftopsArgs << QStringLiteral("-eps") << tmpFile.fileName() << QStringLiteral("-");
     qCDebug(EPSPLUGIN) << "Running pdftops with args" << pdftopsArgs;
     converter.start(QStringLiteral("pdftops"), pdftopsArgs);
 
     if (!converter.waitForStarted()) {
         // GhostScript produces huge files, and takes a long time doing so
         QStringList gsArgs;
-        gsArgs << QStringLiteral("-q") << QStringLiteral("-P-")
-               << QStringLiteral("-dNOPAUSE") << QStringLiteral("-dBATCH")
-               << QStringLiteral("-dSAFER")
-               << QStringLiteral("-sDEVICE=epswrite")
-               << QStringLiteral("-sOutputFile=-")
-               << QStringLiteral("-c")
-               << QStringLiteral("save") << QStringLiteral("pop")
-               << QStringLiteral("-f")
-               << tmpFile.fileName();
+        gsArgs << QStringLiteral("-q") << QStringLiteral("-P-") << QStringLiteral("-dNOPAUSE") << QStringLiteral("-dBATCH") << QStringLiteral("-dSAFER")
+               << QStringLiteral("-sDEVICE=epswrite") << QStringLiteral("-sOutputFile=-") << QStringLiteral("-c") << QStringLiteral("save")
+               << QStringLiteral("pop") << QStringLiteral("-f") << tmpFile.fileName();
         qCDebug(EPSPLUGIN) << "Failed to start pdftops; trying gs with args" << gsArgs;
         converter.start(QStringLiteral("gs"), gsArgs);
 

src/imageformats/eps_p.h

@@ -35,4 +35,3 @@ public:
 Q_DECLARE_LOGGING_CATEGORY(EPSPLUGIN)
 
 #endif // KIMG_EPS_P_H
-

src/imageformats/exr.cpp

@@ -9,41 +9,48 @@
 
 #include "exr_p.h"
 
-#include <ImfRgbaFile.h>
-#include <ImfStandardAttributes.h>
+#include <IexThrowErrnoExc.h>
 #include <ImathBox.h>
-#include <ImfInputFile.h>
+#include <ImfArray.h>
 #include <ImfBoxAttribute.h>
 #include <ImfChannelListAttribute.h>
 #include <ImfCompressionAttribute.h>
+#include <ImfConvert.h>
 #include <ImfFloatAttribute.h>
+#include <ImfInputFile.h>
+#include <ImfInt64.h>
 #include <ImfIntAttribute.h>
 #include <ImfLineOrderAttribute.h>
+#include <ImfRgbaFile.h>
+#include <ImfStandardAttributes.h>
 #include <ImfStringAttribute.h>
 #include <ImfVecAttribute.h>
-#include <ImfArray.h>
-#include <ImfConvert.h>
 #include <ImfVersion.h>
-#include <IexThrowErrnoExc.h>
 
 #include <iostream>
 
-#include <QImage>
 #include <QDataStream>
 #include <QDebug>
+#include <QImage>
 #include <QImageIOPlugin>
 
-class K_IStream: public Imf::IStream
+class K_IStream : public Imf::IStream
 {
 public:
-    K_IStream(QIODevice *dev, const QByteArray &fileName):
-        IStream(fileName.data()), m_dev(dev)
+    K_IStream(QIODevice *dev, const QByteArray &fileName)
+        : IStream(fileName.data())
+        , m_dev(dev)
     {
     }
 
-    bool  read(char c[], int n) override;
+    bool read(char c[], int n) override;
+#if OPENEXR_VERSION_MAJOR > 2
+    uint64_t tellg() override;
+    void seekg(uint64_t pos) override;
+#else
     Imf::Int64 tellg() override;
     void seekg(Imf::Int64 pos) override;
+#endif
     void clear() override;
 
 private:
@@ -63,12 +70,20 @@ bool K_IStream::read(char c[], int n)
     return false;
 }
 
+#if OPENEXR_VERSION_MAJOR > 2
+uint64_t K_IStream::tellg()
+#else
 Imf::Int64 K_IStream::tellg()
+#endif
 {
     return m_dev->pos();
 }
 
+#if OPENEXR_VERSION_MAJOR > 2
+void K_IStream::seekg(uint64_t pos)
+#else
 void K_IStream::seekg(Imf::Int64 pos)
+#endif
 {
     m_dev->seek(pos);
 }
@@ -84,7 +99,10 @@ void K_IStream::clear()
  */
 QRgb RgbaToQrgba(struct Imf::Rgba &imagePixel)
 {
-    float r, g, b, a;
+    float r;
+    float g;
+    float b;
+    float a;
 
     //  1) Compensate for fogging by subtracting defog
     //     from the raw pixel values.
@@ -117,30 +135,30 @@ QRgb RgbaToQrgba(struct Imf::Rgba &imagePixel)
     //     maximum intensity).
     // Response: kneeLow = 0.0 (2^0.0 => 1); kneeHigh = 5.0 (2^5 =>32)
     if (r > 1.0) {
-        r = 1.0 + Imath::Math<float>::log((r - 1.0) * 0.184874 + 1) / 0.184874;
+        r = 1.0 + std::log((r - 1.0) * 0.184874 + 1) / 0.184874;
     }
     if (g > 1.0) {
-        g = 1.0 + Imath::Math<float>::log((g - 1.0) * 0.184874 + 1) / 0.184874;
+        g = 1.0 + std::log((g - 1.0) * 0.184874 + 1) / 0.184874;
     }
     if (b > 1.0) {
-        b = 1.0 + Imath::Math<float>::log((b - 1.0) * 0.184874 + 1) / 0.184874;
+        b = 1.0 + std::log((b - 1.0) * 0.184874 + 1) / 0.184874;
     }
     if (a > 1.0) {
-        a = 1.0 + Imath::Math<float>::log((a - 1.0) * 0.184874 + 1) / 0.184874;
+        a = 1.0 + std::log((a - 1.0) * 0.184874 + 1) / 0.184874;
     }
-//
-//  5) Gamma-correct the pixel values, assuming that the
-//     screen's gamma is 0.4545 (or 1/2.2).
-    r = Imath::Math<float>::pow(r, 0.4545);
-    g = Imath::Math<float>::pow(g, 0.4545);
-    b = Imath::Math<float>::pow(b, 0.4545);
-    a = Imath::Math<float>::pow(a, 0.4545);
+    //
+    //  5) Gamma-correct the pixel values, assuming that the
+    //     screen's gamma is 0.4545 (or 1/2.2).
+    r = std::pow(r, 0.4545);
+    g = std::pow(g, 0.4545);
+    b = std::pow(b, 0.4545);
+    a = std::pow(a, 0.4545);
 
-//  6) Scale the values such that pixels middle gray
-//     pixels are mapped to 84.66 (or 3.5 f-stops below
-//     the display's maximum intensity).
-//
-//  7) Clamp the values to [0, 255].
+    //  6) Scale the values such that pixels middle gray
+    //     pixels are mapped to 84.66 (or 3.5 f-stops below
+    //     the display's maximum intensity).
+    //
+    //  7) Clamp the values to [0, 255].
     return qRgba((unsigned char)(Imath::clamp(r * 84.66f, 0.f, 255.f)),
                  (unsigned char)(Imath::clamp(g * 84.66f, 0.f, 255.f)),
                  (unsigned char)(Imath::clamp(b * 84.66f, 0.f, 255.f)),
@@ -163,13 +181,14 @@ bool EXRHandler::canRead() const
 bool EXRHandler::read(QImage *outImage)
 {
     try {
-        int width, height;
+        int width;
+        int height;
 
         K_IStream istr(device(), QByteArray());
         Imf::RgbaInputFile file(istr);
         Imath::Box2i dw = file.dataWindow();
 
-        width  = dw.max.x - dw.min.x + 1;
+        width = dw.max.x - dw.min.x + 1;
         height = dw.max.y - dw.min.y + 1;
 
         QImage image(width, height, QImage::Format_RGB32);
@@ -196,7 +215,7 @@ bool EXRHandler::read(QImage *outImage)
 
         return true;
     } catch (const std::exception &exc) {
-//      qDebug() << exc.what();
+        //      qDebug() << exc.what();
         return false;
     }
 }

src/imageformats/gimp_p.h

@@ -20,13 +20,13 @@ typedef unsigned char uchar;
 // From GIMP "tile.h" v1.2
 
 const uint TILE_WIDTH = 64; //!< Width of a tile in the XCF file.
-const uint TILE_HEIGHT = 64;    //!< Height of a tile in the XCF file.
+const uint TILE_HEIGHT = 64; //!< Height of a tile in the XCF file.
 
 // From GIMP "paint_funcs.c" v1.2
 
 const int RANDOM_TABLE_SIZE = 4096; //!< Size of dissolve random number table.
 const int RANDOM_SEED = 314159265; //!< Seed for dissolve random number table.
-const double EPSILON = 0.0001;  //!< Roundup in alpha blending.
+const double EPSILON = 0.0001; //!< Roundup in alpha blending.
 
 // From GIMP "paint_funcs.h" v1.2
 
@@ -41,10 +41,9 @@ const uchar OPAQUE_OPACITY = 255; //!< Opaque value for 8-bit alpha component.
 typedef enum {
     RGB,
     GRAY,
-    INDEXED
+    INDEXED,
 } GimpImageBaseType;
 
-
 // From GIMP "libgimp/gimpenums.h" v2.4
 
 //! Effect to apply when layers are merged together.
@@ -74,7 +73,6 @@ typedef enum {
     GRAIN_MERGE_MODE
 } LayerModeEffects;
 
-
 // From GIMP "paint_funcs.c" v1.2
 
 /*!
@@ -163,9 +161,9 @@ static void RGBTOHSV(uchar &red, uchar &green, uchar &blue)
         }
     }
 
-    red   = (uchar)h;
+    red = (uchar)h;
     green = (uchar)s;
-    blue  = (uchar)v;
+    blue = (uchar)v;
 }
 
 /*!
@@ -177,9 +175,9 @@ static void RGBTOHSV(uchar &red, uchar &green, uchar &blue)
 static void HSVTORGB(uchar &hue, uchar &saturation, uchar &value)
 {
     if (saturation == 0) {
-        hue        = value;
+        hue = value;
         saturation = value;
-        //value      = value;
+        // value      = value;
     } else {
         double h = hue * 6. / 255.;
         double s = saturation / 255.;
@@ -195,34 +193,34 @@ static void HSVTORGB(uchar &hue, uchar &saturation, uchar &value)
 
         switch ((int)h) {
         case 0:
-            hue        = (uchar)(v * 255);
+            hue = (uchar)(v * 255);
             saturation = (uchar)(t * 255);
-            value      = (uchar)(p * 255);
+            value = (uchar)(p * 255);
             break;
         case 1:
-            hue        = (uchar)(q * 255);
+            hue = (uchar)(q * 255);
             saturation = (uchar)(v * 255);
-            value      = (uchar)(p * 255);
+            value = (uchar)(p * 255);
             break;
         case 2:
-            hue        = (uchar)(p * 255);
+            hue = (uchar)(p * 255);
             saturation = (uchar)(v * 255);
-            value      = (uchar)(t * 255);
+            value = (uchar)(t * 255);
             break;
         case 3:
-            hue        = (uchar)(p * 255);
+            hue = (uchar)(p * 255);
             saturation = (uchar)(q * 255);
-            value      = (uchar)(v * 255);
+            value = (uchar)(v * 255);
             break;
         case 4:
-            hue        = (uchar)(t * 255);
+            hue = (uchar)(t * 255);
             saturation = (uchar)(p * 255);
-            value      = (uchar)(v * 255);
+            value = (uchar)(v * 255);
             break;
         case 5:
-            hue        = (uchar)(v * 255);
+            hue = (uchar)(v * 255);
             saturation = (uchar)(p * 255);
-            value      = (uchar)(q * 255);
+            value = (uchar)(q * 255);
         }
     }
 }
@@ -282,9 +280,9 @@ static void RGBTOHLS(uchar &red, uchar &green, uchar &blue)
         }
     }
 
-    red   = (uchar)h;
+    red = (uchar)h;
     green = (uchar)l;
-    blue  = (uchar)s;
+    blue = (uchar)s;
 }
 
 /*!
@@ -330,8 +328,8 @@ static void HLSTORGB(uchar &hue, uchar &lightness, uchar &saturation)
     double s = saturation;
 
     if (s == 0) {
-        hue        = (uchar)l;
-        lightness  = (uchar)l;
+        hue = (uchar)l;
+        lightness = (uchar)l;
         saturation = (uchar)l;
     } else {
         double m1, m2;
@@ -344,8 +342,8 @@ static void HLSTORGB(uchar &hue, uchar &lightness, uchar &saturation)
 
         m1 = (l / 127.5) - m2;
 
-        hue        = HLSVALUE(m1, m2, h + 85);
-        lightness  = HLSVALUE(m1, m2, h);
+        hue = HLSVALUE(m1, m2, h + 85);
+        lightness = HLSVALUE(m1, m2, h);
         saturation = HLSVALUE(m1, m2, h - 85);
     }
 }

src/imageformats/hdr.cpp

@@ -8,8 +8,8 @@
 
 #include "hdr_p.h"
 
-#include <QImage>
 #include <QDataStream>
+#include <QImage>
 #include <QLoggingCategory>
 #include <QRegularExpressionMatch>
 
@@ -19,19 +19,18 @@ typedef unsigned char uchar;
 
 Q_LOGGING_CATEGORY(HDRPLUGIN, "kf.imageformats.plugins.hdr", QtWarningMsg)
 
-namespace   // Private.
+namespace // Private.
 {
-
-#define MAXLINE     1024
-#define MINELEN     8       // minimum scanline length for encoding
-#define MAXELEN     0x7fff  // maximum scanline length for encoding
+#define MAXLINE 1024
+#define MINELEN 8 // minimum scanline length for encoding
+#define MAXELEN 0x7fff // maximum scanline length for encoding
 
 static inline uchar ClipToByte(float value)
 {
     if (value > 255.0f) {
         return 255;
     }
-    //else if (value < 0.0f) return 0;  // we know value is positive.
+    // else if (value < 0.0f) return 0;  // we know value is positive.
     return uchar(value);
 }
 
@@ -39,8 +38,8 @@ static inline uchar ClipToByte(float value)
 // if 'first' is true the first byte is already read
 static bool Read_Old_Line(uchar *image, int width, QDataStream &s)
 {
-    int  rshift = 0;
-    int  i;
+    int rshift = 0;
+    int i;
 
     while (width > 0) {
         s >> image[0];
@@ -54,7 +53,7 @@ static bool Read_Old_Line(uchar *image, int width, QDataStream &s)
 
         if ((image[0] == 1) && (image[1] == 1) && (image[2] == 1)) {
             for (i = image[3] << rshift; i > 0; i--) {
-                //memcpy(image, image-4, 4);
+                // memcpy(image, image-4, 4);
                 (uint &)image[0] = (uint &)image[0 - 4];
                 image += 4;
                 width--;
@@ -81,9 +80,7 @@ static void RGBE_To_QRgbLine(uchar *image, QRgb *scanline, int width)
             v = 1.0f / float(1 << -e);
         }
 
-        scanline[j] = qRgb(ClipToByte(float(image[0]) * v),
-                           ClipToByte(float(image[1]) * v),
-                           ClipToByte(float(image[2]) * v));
+        scanline[j] = qRgb(ClipToByte(float(image[0]) * v), ClipToByte(float(image[1]) * v), ClipToByte(float(image[2]) * v));
 
         image += 4;
     }
@@ -92,7 +89,8 @@ static void RGBE_To_QRgbLine(uchar *image, QRgb *scanline, int width)
 // Load the HDR image.
 static bool LoadHDR(QDataStream &s, const int width, const int height, QImage &img)
 {
-    uchar val, code;
+    uchar val;
+    uchar code;
 
     // Create dst image.
     img = QImage(width, height, QImage::Format_RGB32);
@@ -103,10 +101,10 @@ static bool LoadHDR(QDataStream &s, const int width, const int height, QImage &i
 
     QByteArray lineArray;
     lineArray.resize(4 * width);
-    uchar *image = (uchar *) lineArray.data();
+    uchar *image = (uchar *)lineArray.data();
 
     for (int cline = 0; cline < height; cline++) {
-        QRgb *scanline = (QRgb *) img.scanLine(cline);
+        QRgb *scanline = (QRgb *)img.scanLine(cline);
 
         // determine scanline type
         if ((width < MINELEN) || (MAXELEN < width)) {
@@ -168,7 +166,7 @@ static bool LoadHDR(QDataStream &s, const int width, const int height, QImage &i
                 } else {
                     // non-run
                     while (code != 0) {
-                        s >> image[i +  j * 4];
+                        s >> image[i + j * 4];
                         j++;
                         code--;
                     }
@@ -227,8 +225,14 @@ bool HDRHandler::read(QImage *outImage)
         qCDebug(HDRPLUGIN) << "Invalid HDR file, the first line after the header didn't have the expected format:" << line;
         return false;
     }
-    const int width = match.captured(2).toInt();
-    const int height = match.captured(4).toInt();
+
+    if ((match.captured(1).at(1) != u'Y') || (match.captured(3).at(1) != u'X')) {
+        qCDebug(HDRPLUGIN) << "Unsupported image orientation in HDR file.";
+        return false;
+    }
+
+    const int width = match.captured(4).toInt();
+    const int height = match.captured(2).toInt();
 
     QDataStream s(device());
 

src/imageformats/heif.cpp

@@ -0,0 +1,734 @@
+/*
+    High Efficiency Image File Format (HEIF) support for QImage.
+
+    SPDX-FileCopyrightText: 2020 Sirius Bakke <sirius@bakke.co>
+    SPDX-FileCopyrightText: 2021 Daniel Novomesky <dnovomesky@gmail.com>
+
+    SPDX-License-Identifier: LGPL-2.0-or-later
+*/
+
+#include "heif_p.h"
+#include "libheif/heif_cxx.h"
+
+#include <QColorSpace>
+#include <QDebug>
+#include <QPointF>
+#include <QSysInfo>
+#include <string.h>
+
+namespace // Private.
+{
+struct HeifQIODeviceWriter : public heif::Context::Writer {
+    HeifQIODeviceWriter(QIODevice *device)
+        : m_ioDevice(device)
+    {
+    }
+
+    heif_error write(const void *data, size_t size) override
+    {
+        heif_error error;
+        error.code = heif_error_Ok;
+        error.subcode = heif_suberror_Unspecified;
+        error.message = errorOkMessage;
+
+        qint64 bytesWritten = m_ioDevice->write(static_cast<const char *>(data), size);
+
+        if (bytesWritten < static_cast<qint64>(size)) {
+            error.code = heif_error_Encoding_error;
+            error.message = QIODeviceWriteErrorMessage;
+            error.subcode = heif_suberror_Cannot_write_output_data;
+        }
+
+        return error;
+    }
+
+    static constexpr const char *errorOkMessage = "Success";
+    static constexpr const char *QIODeviceWriteErrorMessage = "Bytes written to QIODevice are smaller than input data size";
+
+private:
+    QIODevice *m_ioDevice;
+};
+
+} // namespace
+
+HEIFHandler::HEIFHandler()
+    : m_parseState(ParseHeicNotParsed)
+    , m_quality(100)
+{
+}
+
+bool HEIFHandler::canRead() const
+{
+    if (m_parseState == ParseHeicNotParsed && !canRead(device())) {
+        return false;
+    }
+
+    if (m_parseState != ParseHeicError) {
+        setFormat("heif");
+        return true;
+    }
+    return false;
+}
+
+bool HEIFHandler::read(QImage *outImage)
+{
+    if (!ensureParsed()) {
+        return false;
+    }
+
+    *outImage = m_current_image;
+    return true;
+}
+
+bool HEIFHandler::write(const QImage &image)
+{
+    if (image.format() == QImage::Format_Invalid || image.isNull()) {
+        qWarning("No image data to save");
+        return false;
+    }
+
+    int save_depth; // 8 or 10bit per channel
+    QImage::Format tmpformat; // format for temporary image
+    const bool save_alpha = image.hasAlphaChannel();
+
+    switch (image.format()) {
+    case QImage::Format_BGR30:
+    case QImage::Format_A2BGR30_Premultiplied:
+    case QImage::Format_RGB30:
+    case QImage::Format_A2RGB30_Premultiplied:
+    case QImage::Format_Grayscale16:
+    case QImage::Format_RGBX64:
+    case QImage::Format_RGBA64:
+    case QImage::Format_RGBA64_Premultiplied:
+        save_depth = 10;
+        break;
+    default:
+        if (image.depth() > 32) {
+            save_depth = 10;
+        } else {
+            save_depth = 8;
+        }
+        break;
+    }
+
+    heif_chroma chroma;
+    if (save_depth > 8) {
+        if (save_alpha) {
+            tmpformat = QImage::Format_RGBA64;
+            chroma = (QSysInfo::ByteOrder == QSysInfo::LittleEndian) ? heif_chroma_interleaved_RRGGBBAA_LE : heif_chroma_interleaved_RRGGBBAA_BE;
+        } else {
+            tmpformat = QImage::Format_RGBX64;
+            chroma = (QSysInfo::ByteOrder == QSysInfo::LittleEndian) ? heif_chroma_interleaved_RRGGBB_LE : heif_chroma_interleaved_RRGGBB_BE;
+        }
+    } else {
+        if (save_alpha) {
+            tmpformat = QImage::Format_RGBA8888;
+            chroma = heif_chroma_interleaved_RGBA;
+        } else {
+            tmpformat = QImage::Format_RGB888;
+            chroma = heif_chroma_interleaved_RGB;
+        }
+    }
+
+    const QImage tmpimage = image.convertToFormat(tmpformat);
+
+    try {
+        heif::Context ctx;
+        heif::Image heifImage;
+        heifImage.create(tmpimage.width(), tmpimage.height(), heif_colorspace_RGB, chroma);
+
+        QByteArray iccprofile = tmpimage.colorSpace().iccProfile();
+        if (iccprofile.size() > 0) {
+            std::vector<uint8_t> rawProfile(iccprofile.begin(), iccprofile.end());
+            heifImage.set_raw_color_profile(heif_color_profile_type_prof, rawProfile);
+        }
+
+        heifImage.add_plane(heif_channel_interleaved, image.width(), image.height(), save_depth);
+        int stride = 0;
+        uint8_t *const dst = heifImage.get_plane(heif_channel_interleaved, &stride);
+        size_t rowbytes;
+
+        switch (save_depth) {
+        case 10:
+            if (save_alpha) {
+                for (int y = 0; y < tmpimage.height(); y++) {
+                    const uint16_t *src_word = reinterpret_cast<const uint16_t *>(tmpimage.constScanLine(y));
+                    uint16_t *dest_word = reinterpret_cast<uint16_t *>(dst + (y * stride));
+                    for (int x = 0; x < tmpimage.width(); x++) {
+                        int tmp_pixelval;
+                        // R
+                        tmp_pixelval = (int)(((float)(*src_word) / 65535.0f) * 1023.0f + 0.5f);
+                        *dest_word = qBound(0, tmp_pixelval, 1023);
+                        src_word++;
+                        dest_word++;
+                        // G
+                        tmp_pixelval = (int)(((float)(*src_word) / 65535.0f) * 1023.0f + 0.5f);
+                        *dest_word = qBound(0, tmp_pixelval, 1023);
+                        src_word++;
+                        dest_word++;
+                        // B
+                        tmp_pixelval = (int)(((float)(*src_word) / 65535.0f) * 1023.0f + 0.5f);
+                        *dest_word = qBound(0, tmp_pixelval, 1023);
+                        src_word++;
+                        dest_word++;
+                        // A
+                        tmp_pixelval = (int)(((float)(*src_word) / 65535.0f) * 1023.0f + 0.5f);
+                        *dest_word = qBound(0, tmp_pixelval, 1023);
+                        src_word++;
+                        dest_word++;
+                    }
+                }
+            } else { // no alpha channel
+                for (int y = 0; y < tmpimage.height(); y++) {
+                    const uint16_t *src_word = reinterpret_cast<const uint16_t *>(tmpimage.constScanLine(y));
+                    uint16_t *dest_word = reinterpret_cast<uint16_t *>(dst + (y * stride));
+                    for (int x = 0; x < tmpimage.width(); x++) {
+                        int tmp_pixelval;
+                        // R
+                        tmp_pixelval = (int)(((float)(*src_word) / 65535.0f) * 1023.0f + 0.5f);
+                        *dest_word = qBound(0, tmp_pixelval, 1023);
+                        src_word++;
+                        dest_word++;
+                        // G
+                        tmp_pixelval = (int)(((float)(*src_word) / 65535.0f) * 1023.0f + 0.5f);
+                        *dest_word = qBound(0, tmp_pixelval, 1023);
+                        src_word++;
+                        dest_word++;
+                        // B
+                        tmp_pixelval = (int)(((float)(*src_word) / 65535.0f) * 1023.0f + 0.5f);
+                        *dest_word = qBound(0, tmp_pixelval, 1023);
+                        src_word++;
+                        dest_word++;
+                        // X
+                        src_word++;
+                    }
+                }
+            }
+            break;
+        case 8:
+            rowbytes = save_alpha ? (tmpimage.width() * 4) : (tmpimage.width() * 3);
+            for (int y = 0; y < tmpimage.height(); y++) {
+                memcpy(dst + (y * stride), tmpimage.constScanLine(y), rowbytes);
+            }
+            break;
+        default:
+            qWarning() << "Unsupported depth:" << save_depth;
+            return false;
+            break;
+        }
+
+        heif::Encoder encoder(heif_compression_HEVC);
+
+        encoder.set_lossy_quality(m_quality);
+        if (m_quality > 90) {
+            if (m_quality == 100) {
+                encoder.set_lossless(true);
+            }
+            encoder.set_string_parameter("chroma", "444");
+        }
+
+        heif::Context::EncodingOptions encodingOptions;
+        encodingOptions.save_alpha_channel = save_alpha;
+
+        if ((tmpimage.width() % 2 == 1) || (tmpimage.height() % 2 == 1)) {
+            qWarning() << "Image has odd dimension!\nUse even-numbered dimension(s) for better compatibility with other HEIF implementations.";
+            if (save_alpha) {
+                // This helps to save alpha channel when image has odd dimension
+                encodingOptions.macOS_compatibility_workaround = 0;
+            }
+        }
+
+        ctx.encode_image(heifImage, encoder, encodingOptions);
+
+        HeifQIODeviceWriter writer(device());
+
+        ctx.write(writer);
+
+    } catch (const heif::Error &err) {
+        qWarning() << "libheif error:" << err.get_message().c_str();
+        return false;
+    }
+
+    return true;
+}
+
+bool HEIFHandler::canRead(QIODevice *device)
+{
+    if (!device) {
+        qWarning("HEIFHandler::canRead() called with no device");
+        return false;
+    }
+
+    const QByteArray header = device->peek(28);
+    return HEIFHandler::isSupportedBMFFType(header);
+}
+
+bool HEIFHandler::isSupportedBMFFType(const QByteArray &header)
+{
+    if (header.size() < 28) {
+        return false;
+    }
+
+    const char *buffer = header.constData();
+    if (qstrncmp(buffer + 4, "ftyp", 4) == 0) {
+        if (qstrncmp(buffer + 8, "heic", 4) == 0) {
+            return true;
+        }
+        if (qstrncmp(buffer + 8, "heis", 4) == 0) {
+            return true;
+        }
+        if (qstrncmp(buffer + 8, "heix", 4) == 0) {
+            return true;
+        }
+
+        /* we want to avoid loading AVIF files via this plugin */
+        if (qstrncmp(buffer + 8, "mif1", 4) == 0) {
+            for (int offset = 16; offset <= 24; offset += 4) {
+                if (qstrncmp(buffer + offset, "avif", 4) == 0) {
+                    return false;
+                }
+            }
+            return true;
+        }
+
+        if (qstrncmp(buffer + 8, "mif2", 4) == 0) {
+            return true;
+        }
+        if (qstrncmp(buffer + 8, "msf1", 4) == 0) {
+            return true;
+        }
+    }
+
+    return false;
+}
+
+QVariant HEIFHandler::option(ImageOption option) const
+{
+    if (option == Quality) {
+        return m_quality;
+    }
+
+    if (!supportsOption(option) || !ensureParsed()) {
+        return QVariant();
+    }
+
+    switch (option) {
+    case Size:
+        return m_current_image.size();
+        break;
+    default:
+        return QVariant();
+        break;
+    }
+}
+
+void HEIFHandler::setOption(ImageOption option, const QVariant &value)
+{
+    switch (option) {
+    case Quality:
+        m_quality = value.toInt();
+        if (m_quality > 100) {
+            m_quality = 100;
+        } else if (m_quality < 0) {
+            m_quality = 100;
+        }
+        break;
+    default:
+        QImageIOHandler::setOption(option, value);
+        break;
+    }
+}
+
+bool HEIFHandler::supportsOption(ImageOption option) const
+{
+    return option == Quality || option == Size;
+}
+
+bool HEIFHandler::ensureParsed() const
+{
+    if (m_parseState == ParseHeicSuccess) {
+        return true;
+    }
+    if (m_parseState == ParseHeicError) {
+        return false;
+    }
+
+    HEIFHandler *that = const_cast<HEIFHandler *>(this);
+
+    return that->ensureDecoder();
+}
+bool HEIFHandler::ensureDecoder()
+{
+    if (m_parseState != ParseHeicNotParsed) {
+        if (m_parseState == ParseHeicSuccess) {
+            return true;
+        }
+        return false;
+    }
+
+    const QByteArray buffer = device()->readAll();
+    if (!HEIFHandler::isSupportedBMFFType(buffer)) {
+        m_parseState = ParseHeicError;
+        return false;
+    }
+
+    try {
+        heif::Context ctx;
+        ctx.read_from_memory_without_copy((const void *)(buffer.constData()), buffer.size());
+
+        heif::ImageHandle handle = ctx.get_primary_image_handle();
+
+        const bool hasAlphaChannel = handle.has_alpha_channel();
+        const int bit_depth = handle.get_luma_bits_per_pixel();
+        heif_chroma chroma;
+
+        QImage::Format target_image_format;
+
+        if (bit_depth == 10 || bit_depth == 12) {
+            if (hasAlphaChannel) {
+                chroma = (QSysInfo::ByteOrder == QSysInfo::LittleEndian) ? heif_chroma_interleaved_RRGGBBAA_LE : heif_chroma_interleaved_RRGGBBAA_BE;
+                target_image_format = QImage::Format_RGBA64;
+            } else {
+                chroma = (QSysInfo::ByteOrder == QSysInfo::LittleEndian) ? heif_chroma_interleaved_RRGGBB_LE : heif_chroma_interleaved_RRGGBB_BE;
+                target_image_format = QImage::Format_RGBX64;
+            }
+        } else if (bit_depth == 8) {
+            if (hasAlphaChannel) {
+                chroma = heif_chroma_interleaved_RGBA;
+                target_image_format = QImage::Format_ARGB32;
+            } else {
+                chroma = heif_chroma_interleaved_RGB;
+                target_image_format = QImage::Format_RGB32;
+            }
+        } else {
+            m_parseState = ParseHeicError;
+            if (bit_depth > 0) {
+                qWarning() << "Unsupported bit depth:" << bit_depth;
+            } else {
+                qWarning() << "Undefined bit depth.";
+            }
+            return false;
+        }
+
+        heif::Image img = handle.decode_image(heif_colorspace_RGB, chroma);
+
+        const int imageWidth = img.get_width(heif_channel_interleaved);
+        const int imageHeight = img.get_height(heif_channel_interleaved);
+
+        QSize imageSize(imageWidth, imageHeight);
+
+        if (!imageSize.isValid()) {
+            m_parseState = ParseHeicError;
+            qWarning() << "HEIC image size invalid:" << imageSize;
+            return false;
+        }
+
+        int stride = 0;
+        const uint8_t *const src = img.get_plane(heif_channel_interleaved, &stride);
+
+        if (!src || stride <= 0) {
+            m_parseState = ParseHeicError;
+            qWarning() << "HEIC data pixels information not valid!";
+            return false;
+        }
+
+        m_current_image = QImage(imageSize, target_image_format);
+        if (m_current_image.isNull()) {
+            m_parseState = ParseHeicError;
+            qWarning() << "Unable to allocate memory!";
+            return false;
+        }
+
+        switch (bit_depth) {
+        case 12:
+            if (hasAlphaChannel) {
+                for (int y = 0; y < imageHeight; y++) {
+                    const uint16_t *src_word = reinterpret_cast<const uint16_t *>(src + (y * stride));
+                    uint16_t *dest_data = reinterpret_cast<uint16_t *>(m_current_image.scanLine(y));
+                    for (int x = 0; x < imageWidth; x++) {
+                        int tmpvalue;
+                        // R
+                        tmpvalue = (int)(((float)(0x0fff & (*src_word)) / 4095.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                        // G
+                        tmpvalue = (int)(((float)(0x0fff & (*src_word)) / 4095.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                        // B
+                        tmpvalue = (int)(((float)(0x0fff & (*src_word)) / 4095.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                        // A
+                        tmpvalue = (int)(((float)(0x0fff & (*src_word)) / 4095.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                    }
+                }
+            } else { // no alpha channel
+                for (int y = 0; y < imageHeight; y++) {
+                    const uint16_t *src_word = reinterpret_cast<const uint16_t *>(src + (y * stride));
+                    uint16_t *dest_data = reinterpret_cast<uint16_t *>(m_current_image.scanLine(y));
+                    for (int x = 0; x < imageWidth; x++) {
+                        int tmpvalue;
+                        // R
+                        tmpvalue = (int)(((float)(0x0fff & (*src_word)) / 4095.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                        // G
+                        tmpvalue = (int)(((float)(0x0fff & (*src_word)) / 4095.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                        // B
+                        tmpvalue = (int)(((float)(0x0fff & (*src_word)) / 4095.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                        // X = 0xffff
+                        *dest_data = 0xffff;
+                        dest_data++;
+                    }
+                }
+            }
+            break;
+        case 10:
+            if (hasAlphaChannel) {
+                for (int y = 0; y < imageHeight; y++) {
+                    const uint16_t *src_word = reinterpret_cast<const uint16_t *>(src + (y * stride));
+                    uint16_t *dest_data = reinterpret_cast<uint16_t *>(m_current_image.scanLine(y));
+                    for (int x = 0; x < imageWidth; x++) {
+                        int tmpvalue;
+                        // R
+                        tmpvalue = (int)(((float)(0x03ff & (*src_word)) / 1023.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                        // G
+                        tmpvalue = (int)(((float)(0x03ff & (*src_word)) / 1023.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                        // B
+                        tmpvalue = (int)(((float)(0x03ff & (*src_word)) / 1023.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                        // A
+                        tmpvalue = (int)(((float)(0x03ff & (*src_word)) / 1023.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                    }
+                }
+            } else { // no alpha channel
+                for (int y = 0; y < imageHeight; y++) {
+                    const uint16_t *src_word = reinterpret_cast<const uint16_t *>(src + (y * stride));
+                    uint16_t *dest_data = reinterpret_cast<uint16_t *>(m_current_image.scanLine(y));
+                    for (int x = 0; x < imageWidth; x++) {
+                        int tmpvalue;
+                        // R
+                        tmpvalue = (int)(((float)(0x03ff & (*src_word)) / 1023.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                        // G
+                        tmpvalue = (int)(((float)(0x03ff & (*src_word)) / 1023.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                        // B
+                        tmpvalue = (int)(((float)(0x03ff & (*src_word)) / 1023.0f) * 65535.0f + 0.5f);
+                        tmpvalue = qBound(0, tmpvalue, 65535);
+                        *dest_data = (uint16_t)tmpvalue;
+                        src_word++;
+                        dest_data++;
+                        // X = 0xffff
+                        *dest_data = 0xffff;
+                        dest_data++;
+                    }
+                }
+            }
+            break;
+        case 8:
+            if (hasAlphaChannel) {
+                for (int y = 0; y < imageHeight; y++) {
+                    const uint8_t *src_byte = src + (y * stride);
+                    uint32_t *dest_pixel = reinterpret_cast<uint32_t *>(m_current_image.scanLine(y));
+                    for (int x = 0; x < imageWidth; x++) {
+                        int red = *src_byte++;
+                        int green = *src_byte++;
+                        int blue = *src_byte++;
+                        int alpha = *src_byte++;
+                        *dest_pixel = qRgba(red, green, blue, alpha);
+                        dest_pixel++;
+                    }
+                }
+            } else { // no alpha channel
+                for (int y = 0; y < imageHeight; y++) {
+                    const uint8_t *src_byte = src + (y * stride);
+                    uint32_t *dest_pixel = reinterpret_cast<uint32_t *>(m_current_image.scanLine(y));
+                    for (int x = 0; x < imageWidth; x++) {
+                        int red = *src_byte++;
+                        int green = *src_byte++;
+                        int blue = *src_byte++;
+                        *dest_pixel = qRgb(red, green, blue);
+                        dest_pixel++;
+                    }
+                }
+            }
+            break;
+        default:
+            m_parseState = ParseHeicError;
+            qWarning() << "Unsupported bit depth:" << bit_depth;
+            return false;
+            break;
+        }
+
+        heif_color_profile_type profileType = heif_image_handle_get_color_profile_type(handle.get_raw_image_handle());
+        struct heif_error err;
+        if (profileType == heif_color_profile_type_prof || profileType == heif_color_profile_type_rICC) {
+            int rawProfileSize = (int)heif_image_handle_get_raw_color_profile_size(handle.get_raw_image_handle());
+            if (rawProfileSize > 0) {
+                QByteArray ba(rawProfileSize, 0);
+                err = heif_image_handle_get_raw_color_profile(handle.get_raw_image_handle(), ba.data());
+                if (err.code) {
+                    qWarning() << "icc profile loading failed";
+                } else {
+                    m_current_image.setColorSpace(QColorSpace::fromIccProfile(ba));
+                    if (!m_current_image.colorSpace().isValid()) {
+                        qWarning() << "HEIC image has Qt-unsupported or invalid ICC profile!";
+                    }
+                }
+            } else {
+                qWarning() << "icc profile is empty";
+            }
+
+        } else if (profileType == heif_color_profile_type_nclx) {
+            struct heif_color_profile_nclx *nclx = nullptr;
+            err = heif_image_handle_get_nclx_color_profile(handle.get_raw_image_handle(), &nclx);
+            if (err.code || !nclx) {
+                qWarning() << "nclx profile loading failed";
+            } else {
+                const QPointF redPoint(nclx->color_primary_red_x, nclx->color_primary_red_y);
+                const QPointF greenPoint(nclx->color_primary_green_x, nclx->color_primary_green_y);
+                const QPointF bluePoint(nclx->color_primary_blue_x, nclx->color_primary_blue_y);
+                const QPointF whitePoint(nclx->color_primary_white_x, nclx->color_primary_white_y);
+
+                QColorSpace::TransferFunction q_trc = QColorSpace::TransferFunction::Custom;
+                float q_trc_gamma = 0.0f;
+
+                switch (nclx->transfer_characteristics) {
+                case 4:
+                    q_trc = QColorSpace::TransferFunction::Gamma;
+                    q_trc_gamma = 2.2f;
+                    break;
+                case 5:
+                    q_trc = QColorSpace::TransferFunction::Gamma;
+                    q_trc_gamma = 2.8f;
+                    break;
+                case 8:
+                    q_trc = QColorSpace::TransferFunction::Linear;
+                    break;
+                case 2:
+                case 13:
+                    q_trc = QColorSpace::TransferFunction::SRgb;
+                    break;
+                default:
+                    qWarning("CICP color_primaries: %d, transfer_characteristics: %d\nThe colorspace is unsupported by this plug-in yet.",
+                             nclx->color_primaries,
+                             nclx->transfer_characteristics);
+                    q_trc = QColorSpace::TransferFunction::SRgb;
+                    break;
+                }
+
+                if (q_trc != QColorSpace::TransferFunction::Custom) { // we create new colorspace using Qt
+                    switch (nclx->color_primaries) {
+                    case 1:
+                    case 2:
+                        m_current_image.setColorSpace(QColorSpace(QColorSpace::Primaries::SRgb, q_trc, q_trc_gamma));
+                        break;
+                    case 12:
+                        m_current_image.setColorSpace(QColorSpace(QColorSpace::Primaries::DciP3D65, q_trc, q_trc_gamma));
+                        break;
+                    default:
+                        m_current_image.setColorSpace(QColorSpace(whitePoint, redPoint, greenPoint, bluePoint, q_trc, q_trc_gamma));
+                        break;
+                    }
+                }
+                heif_nclx_color_profile_free(nclx);
+
+                if (!m_current_image.colorSpace().isValid()) {
+                    qWarning() << "HEIC plugin created invalid QColorSpace from NCLX!";
+                }
+            }
+
+        } else {
+            m_current_image.setColorSpace(QColorSpace(QColorSpace::SRgb));
+        }
+
+    } catch (const heif::Error &err) {
+        m_parseState = ParseHeicError;
+        qWarning() << "libheif error:" << err.get_message().c_str();
+        return false;
+    }
+
+    m_parseState = ParseHeicSuccess;
+    return true;
+}
+
+QImageIOPlugin::Capabilities HEIFPlugin::capabilities(QIODevice *device, const QByteArray &format) const
+{
+    if (format == "heif" || format == "heic") {
+        Capabilities format_cap;
+        if (heif_have_decoder_for_format(heif_compression_HEVC)) {
+            format_cap |= CanRead;
+        }
+        if (heif_have_encoder_for_format(heif_compression_HEVC)) {
+            format_cap |= CanWrite;
+        }
+        return format_cap;
+    }
+    if (!format.isEmpty()) {
+        return {};
+    }
+    if (!device->isOpen()) {
+        return {};
+    }
+
+    Capabilities cap;
+    if (device->isReadable() && HEIFHandler::canRead(device) && heif_have_decoder_for_format(heif_compression_HEVC)) {
+        cap |= CanRead;
+    }
+
+    if (device->isWritable() && heif_have_encoder_for_format(heif_compression_HEVC)) {
+        cap |= CanWrite;
+    }
+    return cap;
+}
+
+QImageIOHandler *HEIFPlugin::create(QIODevice *device, const QByteArray &format) const
+{
+    QImageIOHandler *handler = new HEIFHandler;
+    handler->setDevice(device);
+    handler->setFormat(format);
+    return handler;
+}

src/imageformats/heif.desktop

@@ -0,0 +1,7 @@
+[Desktop Entry]
+Type=Service
+X-KDE-ServiceTypes=QImageIOPlugins
+X-KDE-ImageFormat=heif
+X-KDE-MimeType=image/heif
+X-KDE-Read=true
+X-KDE-Write=true

src/imageformats/heif.json

@@ -0,0 +1,4 @@
+{
+    "Keys": [ "heif", "heic" ],
+    "MimeTypes": [ "image/heif", "image/heif" ]
+}

src/imageformats/heif_p.h

@@ -0,0 +1,58 @@
+/*
+    High Efficiency Image File Format (HEIF) support for QImage.
+
+    SPDX-FileCopyrightText: 2020 Sirius Bakke <sirius@bakke.co>
+    SPDX-FileCopyrightText: 2021 Daniel Novomesky <dnovomesky@gmail.com>
+
+    SPDX-License-Identifier: LGPL-2.0-or-later
+*/
+
+#ifndef KIMG_HEIF_P_H
+#define KIMG_HEIF_P_H
+
+#include <QByteArray>
+#include <QImage>
+#include <QImageIOPlugin>
+
+class HEIFHandler : public QImageIOHandler
+{
+public:
+    HEIFHandler();
+
+    bool canRead() const override;
+    bool read(QImage *image) override;
+    bool write(const QImage &image) override;
+
+    static bool canRead(QIODevice *device);
+
+    QVariant option(ImageOption option) const override;
+    void setOption(ImageOption option, const QVariant &value) override;
+    bool supportsOption(ImageOption option) const override;
+
+private:
+    static bool isSupportedBMFFType(const QByteArray &header);
+    bool ensureParsed() const;
+    bool ensureDecoder();
+
+    enum ParseHeicState {
+        ParseHeicError = -1,
+        ParseHeicNotParsed = 0,
+        ParseHeicSuccess = 1,
+    };
+
+    ParseHeicState m_parseState;
+    int m_quality;
+    QImage m_current_image;
+};
+
+class HEIFPlugin : public QImageIOPlugin
+{
+    Q_OBJECT
+    Q_PLUGIN_METADATA(IID "org.qt-project.Qt.QImageIOHandlerFactoryInterface" FILE "heif.json")
+
+public:
+    Capabilities capabilities(QIODevice *device, const QByteArray &format) const override;
+    QImageIOHandler *create(QIODevice *device, const QByteArray &format = QByteArray()) const override;
+};
+
+#endif // KIMG_HEIF_P_H

src/imageformats/jxl.cpp

@@ -0,0 +1,977 @@
+/*
+    JPEG XL (JXL) support for QImage.
+
+    SPDX-FileCopyrightText: 2021 Daniel Novomesky <dnovomesky@gmail.com>
+
+    SPDX-License-Identifier: BSD-2-Clause
+*/
+
+#include <QThread>
+#include <QtGlobal>
+
+#include "jxl_p.h"
+#include <jxl/encode.h>
+#include <jxl/thread_parallel_runner.h>
+#include <string.h>
+
+QJpegXLHandler::QJpegXLHandler()
+    : m_parseState(ParseJpegXLNotParsed)
+    , m_quality(90)
+    , m_currentimage_index(0)
+    , m_previousimage_index(-1)
+    , m_decoder(nullptr)
+    , m_runner(nullptr)
+    , m_next_image_delay(0)
+    , m_input_image_format(QImage::Format_Invalid)
+    , m_target_image_format(QImage::Format_Invalid)
+    , m_buffer_size(0)
+{
+}
+
+QJpegXLHandler::~QJpegXLHandler()
+{
+    if (m_runner) {
+        JxlThreadParallelRunnerDestroy(m_runner);
+    }
+    if (m_decoder) {
+        JxlDecoderDestroy(m_decoder);
+    }
+}
+
+bool QJpegXLHandler::canRead() const
+{
+    if (m_parseState == ParseJpegXLNotParsed && !canRead(device())) {
+        return false;
+    }
+
+    if (m_parseState != ParseJpegXLError) {
+        setFormat("jxl");
+        return true;
+    }
+    return false;
+}
+
+bool QJpegXLHandler::canRead(QIODevice *device)
+{
+    if (!device) {
+        return false;
+    }
+    QByteArray header = device->peek(32);
+    if (header.size() < 12) {
+        return false;
+    }
+
+    JxlSignature signature = JxlSignatureCheck((const uint8_t *)header.constData(), header.size());
+    if (signature == JXL_SIG_CODESTREAM || signature == JXL_SIG_CONTAINER) {
+        return true;
+    }
+    return false;
+}
+
+bool QJpegXLHandler::ensureParsed() const
+{
+    if (m_parseState == ParseJpegXLSuccess || m_parseState == ParseJpegXLBasicInfoParsed) {
+        return true;
+    }
+    if (m_parseState == ParseJpegXLError) {
+        return false;
+    }
+
+    QJpegXLHandler *that = const_cast<QJpegXLHandler *>(this);
+
+    return that->ensureDecoder();
+}
+
+bool QJpegXLHandler::ensureALLCounted() const
+{
+    if (!ensureParsed()) {
+        return false;
+    }
+
+    if (m_parseState == ParseJpegXLSuccess) {
+        return true;
+    }
+
+    QJpegXLHandler *that = const_cast<QJpegXLHandler *>(this);
+
+    return that->countALLFrames();
+}
+
+bool QJpegXLHandler::ensureDecoder()
+{
+    if (m_decoder) {
+        return true;
+    }
+
+    m_rawData = device()->readAll();
+
+    if (m_rawData.isEmpty()) {
+        return false;
+    }
+
+    JxlSignature signature = JxlSignatureCheck((const uint8_t *)m_rawData.constData(), m_rawData.size());
+    if (signature != JXL_SIG_CODESTREAM && signature != JXL_SIG_CONTAINER) {
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    m_decoder = JxlDecoderCreate(nullptr);
+    if (!m_decoder) {
+        qWarning("ERROR: JxlDecoderCreate failed");
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    int num_worker_threads = QThread::idealThreadCount();
+    if (!m_runner && num_worker_threads >= 4) {
+        /* use half of the threads because plug-in is usually used in environment
+         * where application performs another tasks in backround (pre-load other images) */
+        num_worker_threads = num_worker_threads / 2;
+        num_worker_threads = qBound(2, num_worker_threads, 64);
+        m_runner = JxlThreadParallelRunnerCreate(nullptr, num_worker_threads);
+
+        if (JxlDecoderSetParallelRunner(m_decoder, JxlThreadParallelRunner, m_runner) != JXL_DEC_SUCCESS) {
+            qWarning("ERROR: JxlDecoderSetParallelRunner failed");
+            m_parseState = ParseJpegXLError;
+            return false;
+        }
+    }
+
+    if (JxlDecoderSetInput(m_decoder, (const uint8_t *)m_rawData.constData(), m_rawData.size()) != JXL_DEC_SUCCESS) {
+        qWarning("ERROR: JxlDecoderSetInput failed");
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    JxlDecoderStatus status = JxlDecoderSubscribeEvents(m_decoder, JXL_DEC_BASIC_INFO | JXL_DEC_COLOR_ENCODING | JXL_DEC_FRAME);
+    if (status == JXL_DEC_ERROR) {
+        qWarning("ERROR: JxlDecoderSubscribeEvents failed");
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    status = JxlDecoderProcessInput(m_decoder);
+    if (status == JXL_DEC_ERROR) {
+        qWarning("ERROR: JXL decoding failed");
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+    if (status == JXL_DEC_NEED_MORE_INPUT) {
+        qWarning("ERROR: JXL data incomplete");
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    status = JxlDecoderGetBasicInfo(m_decoder, &m_basicinfo);
+    if (status != JXL_DEC_SUCCESS) {
+        qWarning("ERROR: JXL basic info not available");
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    if (m_basicinfo.xsize == 0 || m_basicinfo.ysize == 0) {
+        qWarning("ERROR: JXL image has zero dimensions");
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    if (m_basicinfo.xsize > 65535 || m_basicinfo.ysize > 65535) {
+        qWarning("JXL image (%dx%d) is too large", m_basicinfo.xsize, m_basicinfo.ysize);
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    if (sizeof(void *) <= 4) {
+        /* On 32bit systems, there is limited address space.
+         * We skip imagess bigger than 8192 x 8192 pixels.
+         * If we don't do it, abort() in libjxl may close whole application */
+        if (m_basicinfo.xsize > ((8192 * 8192) / m_basicinfo.ysize)) {
+            qWarning("JXL image (%dx%d) is too large for 32bit build of the plug-in", m_basicinfo.xsize, m_basicinfo.ysize);
+            m_parseState = ParseJpegXLError;
+            return false;
+        }
+    } else {
+        /* On 64bit systems
+         * We skip images bigger than 16384 x 16384 pixels.
+         * It is an artificial limit not to use extreme amount of memory */
+        if (m_basicinfo.xsize > ((16384 * 16384) / m_basicinfo.ysize)) {
+            qWarning("JXL image (%dx%d) is bigger than security limit 256 megapixels", m_basicinfo.xsize, m_basicinfo.ysize);
+            m_parseState = ParseJpegXLError;
+            return false;
+        }
+    }
+
+    m_parseState = ParseJpegXLBasicInfoParsed;
+    return true;
+}
+
+bool QJpegXLHandler::countALLFrames()
+{
+    if (m_parseState != ParseJpegXLBasicInfoParsed) {
+        return false;
+    }
+
+    JxlDecoderStatus status = JxlDecoderProcessInput(m_decoder);
+    if (status != JXL_DEC_COLOR_ENCODING) {
+        qWarning("Unexpected event %d instead of JXL_DEC_COLOR_ENCODING", status);
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    JxlColorEncoding color_encoding;
+    if (m_basicinfo.uses_original_profile == JXL_FALSE) {
+        JxlColorEncodingSetToSRGB(&color_encoding, JXL_FALSE);
+        JxlDecoderSetPreferredColorProfile(m_decoder, &color_encoding);
+    }
+
+    bool loadalpha;
+
+    if (m_basicinfo.alpha_bits > 0) {
+        loadalpha = true;
+    } else {
+        loadalpha = false;
+    }
+
+    m_input_pixel_format.endianness = JXL_NATIVE_ENDIAN;
+    m_input_pixel_format.align = 0;
+    m_input_pixel_format.num_channels = 4;
+
+    if (m_basicinfo.bits_per_sample > 8) { // high bit depth
+        m_input_pixel_format.data_type = JXL_TYPE_UINT16;
+        m_buffer_size = 8 * (size_t)m_basicinfo.xsize * (size_t)m_basicinfo.ysize;
+        m_input_image_format = QImage::Format_RGBA64;
+
+        if (loadalpha) {
+            m_target_image_format = QImage::Format_RGBA64;
+        } else {
+            m_target_image_format = QImage::Format_RGBX64;
+        }
+    } else { // 8bit depth
+        m_input_pixel_format.data_type = JXL_TYPE_UINT8;
+        m_buffer_size = 4 * (size_t)m_basicinfo.xsize * (size_t)m_basicinfo.ysize;
+        m_input_image_format = QImage::Format_RGBA8888;
+
+        if (loadalpha) {
+            m_target_image_format = QImage::Format_ARGB32;
+        } else {
+            m_target_image_format = QImage::Format_RGB32;
+        }
+    }
+
+    status = JxlDecoderGetColorAsEncodedProfile(m_decoder, &m_input_pixel_format, JXL_COLOR_PROFILE_TARGET_DATA, &color_encoding);
+
+    if (status == JXL_DEC_SUCCESS && color_encoding.color_space == JXL_COLOR_SPACE_RGB && color_encoding.white_point == JXL_WHITE_POINT_D65
+        && color_encoding.primaries == JXL_PRIMARIES_SRGB && color_encoding.transfer_function == JXL_TRANSFER_FUNCTION_SRGB) {
+        m_colorspace = QColorSpace(QColorSpace::SRgb);
+    } else {
+        size_t icc_size = 0;
+        if (JxlDecoderGetICCProfileSize(m_decoder, &m_input_pixel_format, JXL_COLOR_PROFILE_TARGET_DATA, &icc_size) == JXL_DEC_SUCCESS) {
+            if (icc_size > 0) {
+                QByteArray icc_data((int)icc_size, 0);
+                if (JxlDecoderGetColorAsICCProfile(m_decoder, &m_input_pixel_format, JXL_COLOR_PROFILE_TARGET_DATA, (uint8_t *)icc_data.data(), icc_data.size())
+                    == JXL_DEC_SUCCESS) {
+                    m_colorspace = QColorSpace::fromIccProfile(icc_data);
+
+                    if (!m_colorspace.isValid()) {
+                        qWarning("JXL image has Qt-unsupported or invalid ICC profile!");
+                    }
+                } else {
+                    qWarning("Failed to obtain data from JPEG XL decoder");
+                }
+            } else {
+                qWarning("Empty ICC data");
+            }
+        } else {
+            qWarning("no ICC, other color profile");
+        }
+    }
+
+    if (m_basicinfo.have_animation) { // count all frames
+        JxlFrameHeader frame_header;
+        int delay;
+
+        for (status = JxlDecoderProcessInput(m_decoder); status != JXL_DEC_SUCCESS; status = JxlDecoderProcessInput(m_decoder)) {
+            if (status != JXL_DEC_FRAME) {
+                switch (status) {
+                case JXL_DEC_ERROR:
+                    qWarning("ERROR: JXL decoding failed");
+                    break;
+                case JXL_DEC_NEED_MORE_INPUT:
+                    qWarning("ERROR: JXL data incomplete");
+                    break;
+                default:
+                    qWarning("Unexpected event %d instead of JXL_DEC_FRAME", status);
+                    break;
+                }
+                m_parseState = ParseJpegXLError;
+                return false;
+            }
+
+            if (JxlDecoderGetFrameHeader(m_decoder, &frame_header) != JXL_DEC_SUCCESS) {
+                qWarning("ERROR: JxlDecoderGetFrameHeader failed");
+                m_parseState = ParseJpegXLError;
+                return false;
+            }
+
+            if (m_basicinfo.animation.tps_denominator > 0 && m_basicinfo.animation.tps_numerator > 0) {
+                delay = (int)(0.5 + 1000.0 * frame_header.duration * m_basicinfo.animation.tps_denominator / m_basicinfo.animation.tps_numerator);
+            } else {
+                delay = 0;
+            }
+
+            m_framedelays.append(delay);
+        }
+
+        if (m_framedelays.isEmpty()) {
+            qWarning("no frames loaded by the JXL plug-in");
+            m_parseState = ParseJpegXLError;
+            return false;
+        }
+
+        if (m_framedelays.count() == 1) {
+            qWarning("JXL file was marked as animation but it has only one frame.");
+            m_basicinfo.have_animation = JXL_FALSE;
+        }
+    } else { // static picture
+        m_framedelays.resize(1);
+        m_framedelays[0] = 0;
+    }
+
+    if (!rewind()) {
+        return false;
+    }
+
+    m_next_image_delay = m_framedelays[0];
+    m_parseState = ParseJpegXLSuccess;
+    return true;
+}
+
+bool QJpegXLHandler::decode_one_frame()
+{
+    JxlDecoderStatus status = JxlDecoderProcessInput(m_decoder);
+    if (status != JXL_DEC_NEED_IMAGE_OUT_BUFFER) {
+        qWarning("Unexpected event %d instead of JXL_DEC_NEED_IMAGE_OUT_BUFFER", status);
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    m_current_image = QImage(m_basicinfo.xsize, m_basicinfo.ysize, m_input_image_format);
+    if (m_current_image.isNull()) {
+        qWarning("Memory cannot be allocated");
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    m_current_image.setColorSpace(m_colorspace);
+
+    if (JxlDecoderSetImageOutBuffer(m_decoder, &m_input_pixel_format, m_current_image.bits(), m_buffer_size) != JXL_DEC_SUCCESS) {
+        qWarning("ERROR: JxlDecoderSetImageOutBuffer failed");
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    status = JxlDecoderProcessInput(m_decoder);
+    if (status != JXL_DEC_FULL_IMAGE) {
+        qWarning("Unexpected event %d instead of JXL_DEC_FULL_IMAGE", status);
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    if (m_target_image_format != m_input_image_format) {
+        m_current_image.convertTo(m_target_image_format);
+    }
+
+    m_next_image_delay = m_framedelays[m_currentimage_index];
+    m_previousimage_index = m_currentimage_index;
+
+    if (m_framedelays.count() > 1) {
+        m_currentimage_index++;
+
+        if (m_currentimage_index >= m_framedelays.count()) {
+            if (!rewind()) {
+                return false;
+            }
+        }
+    }
+
+    return true;
+}
+
+bool QJpegXLHandler::read(QImage *image)
+{
+    if (!ensureALLCounted()) {
+        return false;
+    }
+
+    if (m_currentimage_index == m_previousimage_index) {
+        *image = m_current_image;
+        return jumpToNextImage();
+    }
+
+    if (decode_one_frame()) {
+        *image = m_current_image;
+        return true;
+    } else {
+        return false;
+    }
+}
+
+bool QJpegXLHandler::write(const QImage &image)
+{
+    if (image.format() == QImage::Format_Invalid) {
+        qWarning("No image data to save");
+        return false;
+    }
+
+    if ((image.width() > 0) && (image.height() > 0)) {
+        if ((image.width() > 65535) || (image.height() > 65535)) {
+            qWarning("Image (%dx%d) is too large to save!", image.width(), image.height());
+            return false;
+        }
+
+        if (sizeof(void *) <= 4) {
+            if (image.width() > ((8192 * 8192) / image.height())) {
+                qWarning("Image (%dx%d) is too large save via 32bit build of JXL plug-in", image.width(), image.height());
+                return false;
+            }
+        } else {
+            if (image.width() > ((16384 * 16384) / image.height())) {
+                qWarning("Image (%dx%d) will not be saved because it has more than 256 megapixels", image.width(), image.height());
+                return false;
+            }
+        }
+    } else {
+        qWarning("Image has zero dimension!");
+        return false;
+    }
+
+    int save_depth = 8; // 8 or 16
+    // depth detection
+    switch (image.format()) {
+    case QImage::Format_BGR30:
+    case QImage::Format_A2BGR30_Premultiplied:
+    case QImage::Format_RGB30:
+    case QImage::Format_A2RGB30_Premultiplied:
+    case QImage::Format_Grayscale16:
+    case QImage::Format_RGBX64:
+    case QImage::Format_RGBA64:
+    case QImage::Format_RGBA64_Premultiplied:
+        save_depth = 16;
+        break;
+    case QImage::Format_RGB32:
+    case QImage::Format_ARGB32:
+    case QImage::Format_ARGB32_Premultiplied:
+    case QImage::Format_RGB888:
+    case QImage::Format_RGBX8888:
+    case QImage::Format_RGBA8888:
+    case QImage::Format_RGBA8888_Premultiplied:
+        save_depth = 8;
+        break;
+    default:
+        if (image.depth() > 32) {
+            save_depth = 16;
+        } else {
+            save_depth = 8;
+        }
+        break;
+    }
+
+    JxlEncoder *encoder = JxlEncoderCreate(nullptr);
+    if (!encoder) {
+        qWarning("Failed to create Jxl encoder");
+        return false;
+    }
+
+    void *runner = nullptr;
+    int num_worker_threads = qBound(1, QThread::idealThreadCount(), 64);
+
+    if (num_worker_threads > 1) {
+        runner = JxlThreadParallelRunnerCreate(nullptr, num_worker_threads);
+        if (JxlEncoderSetParallelRunner(encoder, JxlThreadParallelRunner, runner) != JXL_ENC_SUCCESS) {
+            qWarning("JxlEncoderSetParallelRunner failed");
+            JxlThreadParallelRunnerDestroy(runner);
+            JxlEncoderDestroy(encoder);
+            return false;
+        }
+    }
+
+    JxlEncoderOptions *encoder_options = JxlEncoderOptionsCreate(encoder, nullptr);
+
+    if (m_quality > 100) {
+        m_quality = 100;
+    } else if (m_quality < 0) {
+        m_quality = 90;
+    }
+
+    JxlEncoderOptionsSetDistance(encoder_options, (100.0f - m_quality) / 10.0f);
+
+    JxlEncoderOptionsSetLossless(encoder_options, (m_quality == 100) ? JXL_TRUE : JXL_FALSE);
+
+    JxlBasicInfo output_info;
+    JxlEncoderInitBasicInfo(&output_info);
+
+    JxlColorEncoding color_profile;
+    JxlColorEncodingSetToSRGB(&color_profile, JXL_FALSE);
+
+    bool convert_color_profile;
+    QByteArray iccprofile;
+
+    if (image.colorSpace().isValid() && (m_quality < 100)) {
+        if (image.colorSpace().primaries() != QColorSpace::Primaries::SRgb || image.colorSpace().transferFunction() != QColorSpace::TransferFunction::SRgb) {
+            convert_color_profile = true;
+        } else {
+            convert_color_profile = false;
+        }
+    } else { // lossless or no profile or Qt-unsupported ICC profile
+        convert_color_profile = false;
+        iccprofile = image.colorSpace().iccProfile();
+        if (iccprofile.size() > 0 || m_quality == 100) {
+            output_info.uses_original_profile = 1;
+        }
+    }
+
+    JxlPixelFormat pixel_format;
+    QImage::Format tmpformat;
+    JxlEncoderStatus status;
+
+    pixel_format.endianness = JXL_NATIVE_ENDIAN;
+    pixel_format.align = 0;
+
+    output_info.intensity_target = 255.0f;
+    output_info.orientation = JXL_ORIENT_IDENTITY;
+    output_info.num_color_channels = 3;
+    output_info.animation.tps_numerator = 10;
+    output_info.animation.tps_denominator = 1;
+
+    if (save_depth > 8) { // 16bit depth
+        pixel_format.data_type = JXL_TYPE_UINT16;
+
+        output_info.bits_per_sample = 16;
+
+        if (image.hasAlphaChannel()) {
+            tmpformat = QImage::Format_RGBA64;
+            pixel_format.num_channels = 4;
+            output_info.alpha_bits = 16;
+            output_info.num_extra_channels = 1;
+        } else {
+            tmpformat = QImage::Format_RGBX64;
+            pixel_format.num_channels = 3;
+            output_info.alpha_bits = 0;
+        }
+    } else { // 8bit depth
+        pixel_format.data_type = JXL_TYPE_UINT8;
+
+        output_info.bits_per_sample = 8;
+
+        if (image.hasAlphaChannel()) {
+            tmpformat = QImage::Format_RGBA8888;
+            pixel_format.num_channels = 4;
+            output_info.alpha_bits = 8;
+            output_info.num_extra_channels = 1;
+        } else {
+            tmpformat = QImage::Format_RGB888;
+            pixel_format.num_channels = 3;
+            output_info.alpha_bits = 0;
+        }
+    }
+
+    const QImage tmpimage =
+        convert_color_profile ? image.convertToFormat(tmpformat).convertedToColorSpace(QColorSpace(QColorSpace::SRgb)) : image.convertToFormat(tmpformat);
+
+    const size_t xsize = tmpimage.width();
+    const size_t ysize = tmpimage.height();
+    const size_t buffer_size = (save_depth > 8) ? (2 * pixel_format.num_channels * xsize * ysize) : (pixel_format.num_channels * xsize * ysize);
+
+    if (xsize == 0 || ysize == 0 || tmpimage.isNull()) {
+        qWarning("Unable to allocate memory for output image");
+        if (runner) {
+            JxlThreadParallelRunnerDestroy(runner);
+        }
+        JxlEncoderDestroy(encoder);
+        return false;
+    }
+
+    output_info.xsize = tmpimage.width();
+    output_info.ysize = tmpimage.height();
+
+    status = JxlEncoderSetBasicInfo(encoder, &output_info);
+    if (status != JXL_ENC_SUCCESS) {
+        qWarning("JxlEncoderSetBasicInfo failed!");
+        if (runner) {
+            JxlThreadParallelRunnerDestroy(runner);
+        }
+        JxlEncoderDestroy(encoder);
+        return false;
+    }
+
+    if (!convert_color_profile && iccprofile.size() > 0) {
+        status = JxlEncoderSetICCProfile(encoder, (const uint8_t *)iccprofile.constData(), iccprofile.size());
+        if (status != JXL_ENC_SUCCESS) {
+            qWarning("JxlEncoderSetICCProfile failed!");
+            if (runner) {
+                JxlThreadParallelRunnerDestroy(runner);
+            }
+            JxlEncoderDestroy(encoder);
+            return false;
+        }
+    } else {
+        status = JxlEncoderSetColorEncoding(encoder, &color_profile);
+        if (status != JXL_ENC_SUCCESS) {
+            qWarning("JxlEncoderSetColorEncoding failed!");
+            if (runner) {
+                JxlThreadParallelRunnerDestroy(runner);
+            }
+            JxlEncoderDestroy(encoder);
+            return false;
+        }
+    }
+
+    if (image.hasAlphaChannel() || ((save_depth == 8) && (xsize % 4 == 0))) {
+        status = JxlEncoderAddImageFrame(encoder_options, &pixel_format, (void *)tmpimage.constBits(), buffer_size);
+    } else {
+        if (save_depth > 8) { // 16bit depth without alpha channel
+            uint16_t *tmp_buffer = new (std::nothrow) uint16_t[3 * xsize * ysize];
+            if (!tmp_buffer) {
+                qWarning("Memory allocation error");
+                if (runner) {
+                    JxlThreadParallelRunnerDestroy(runner);
+                }
+                JxlEncoderDestroy(encoder);
+                return false;
+            }
+
+            uint16_t *dest_pixels = tmp_buffer;
+            for (int y = 0; y < tmpimage.height(); y++) {
+                const uint16_t *src_pixels = reinterpret_cast<const uint16_t *>(tmpimage.constScanLine(y));
+                for (int x = 0; x < tmpimage.width(); x++) {
+                    // R
+                    *dest_pixels = *src_pixels;
+                    dest_pixels++;
+                    src_pixels++;
+                    // G
+                    *dest_pixels = *src_pixels;
+                    dest_pixels++;
+                    src_pixels++;
+                    // B
+                    *dest_pixels = *src_pixels;
+                    dest_pixels++;
+                    src_pixels += 2; // skipalpha
+                }
+            }
+            status = JxlEncoderAddImageFrame(encoder_options, &pixel_format, (void *)tmp_buffer, buffer_size);
+            delete[] tmp_buffer;
+        } else { // 8bit depth without alpha channel
+            uchar *tmp_buffer8 = new (std::nothrow) uchar[3 * xsize * ysize];
+            if (!tmp_buffer8) {
+                qWarning("Memory allocation error");
+                if (runner) {
+                    JxlThreadParallelRunnerDestroy(runner);
+                }
+                JxlEncoderDestroy(encoder);
+                return false;
+            }
+
+            uchar *dest_pixels8 = tmp_buffer8;
+            const size_t rowbytes = 3 * xsize;
+            for (int y = 0; y < tmpimage.height(); y++) {
+                memcpy(dest_pixels8, tmpimage.constScanLine(y), rowbytes);
+                dest_pixels8 += rowbytes;
+            }
+            status = JxlEncoderAddImageFrame(encoder_options, &pixel_format, (void *)tmp_buffer8, buffer_size);
+            delete[] tmp_buffer8;
+        }
+    }
+
+    if (status == JXL_ENC_ERROR) {
+        qWarning("JxlEncoderAddImageFrame failed!");
+        if (runner) {
+            JxlThreadParallelRunnerDestroy(runner);
+        }
+        JxlEncoderDestroy(encoder);
+        return false;
+    }
+
+    JxlEncoderCloseInput(encoder);
+
+    std::vector<uint8_t> compressed;
+    compressed.resize(4096);
+    size_t offset = 0;
+    uint8_t *next_out;
+    size_t avail_out;
+    do {
+        next_out = compressed.data() + offset;
+        avail_out = compressed.size() - offset;
+        status = JxlEncoderProcessOutput(encoder, &next_out, &avail_out);
+
+        if (status == JXL_ENC_NEED_MORE_OUTPUT) {
+            offset = next_out - compressed.data();
+            compressed.resize(compressed.size() * 2);
+        } else if (status == JXL_ENC_ERROR) {
+            qWarning("JxlEncoderProcessOutput failed!");
+            if (runner) {
+                JxlThreadParallelRunnerDestroy(runner);
+            }
+            JxlEncoderDestroy(encoder);
+            return false;
+        }
+    } while (status != JXL_ENC_SUCCESS);
+
+    if (runner) {
+        JxlThreadParallelRunnerDestroy(runner);
+    }
+    JxlEncoderDestroy(encoder);
+
+    compressed.resize(next_out - compressed.data());
+
+    if (compressed.size() > 0) {
+        qint64 write_status = device()->write((const char *)compressed.data(), compressed.size());
+
+        if (write_status > 0) {
+            return true;
+        } else if (write_status == -1) {
+            qWarning("Write error: %s\n", qUtf8Printable(device()->errorString()));
+        }
+    }
+
+    return false;
+}
+
+QVariant QJpegXLHandler::option(ImageOption option) const
+{
+    if (option == Quality) {
+        return m_quality;
+    }
+
+    if (!supportsOption(option) || !ensureParsed()) {
+        return QVariant();
+    }
+
+    switch (option) {
+    case Size:
+        return QSize(m_basicinfo.xsize, m_basicinfo.ysize);
+    case Animation:
+        if (m_basicinfo.have_animation) {
+            return true;
+        } else {
+            return false;
+        }
+    default:
+        return QVariant();
+    }
+}
+
+void QJpegXLHandler::setOption(ImageOption option, const QVariant &value)
+{
+    switch (option) {
+    case Quality:
+        m_quality = value.toInt();
+        if (m_quality > 100) {
+            m_quality = 100;
+        } else if (m_quality < 0) {
+            m_quality = 90;
+        }
+        return;
+    default:
+        break;
+    }
+    QImageIOHandler::setOption(option, value);
+}
+
+bool QJpegXLHandler::supportsOption(ImageOption option) const
+{
+    return option == Quality || option == Size || option == Animation;
+}
+
+int QJpegXLHandler::imageCount() const
+{
+    if (!ensureParsed()) {
+        return 0;
+    }
+
+    if (m_parseState == ParseJpegXLBasicInfoParsed) {
+        if (!m_basicinfo.have_animation) {
+            return 1;
+        }
+
+        if (!ensureALLCounted()) {
+            return 0;
+        }
+    }
+
+    if (!m_framedelays.isEmpty()) {
+        return m_framedelays.count();
+    }
+    return 0;
+}
+
+int QJpegXLHandler::currentImageNumber() const
+{
+    if (m_parseState == ParseJpegXLNotParsed) {
+        return -1;
+    }
+
+    if (m_parseState == ParseJpegXLError || m_parseState == ParseJpegXLBasicInfoParsed || !m_decoder) {
+        return 0;
+    }
+
+    return m_currentimage_index;
+}
+
+bool QJpegXLHandler::jumpToNextImage()
+{
+    if (!ensureALLCounted()) {
+        return false;
+    }
+
+    if (m_framedelays.count() > 1) {
+        m_currentimage_index++;
+
+        if (m_currentimage_index >= m_framedelays.count()) {
+            if (!rewind()) {
+                return false;
+            }
+        } else {
+            JxlDecoderSkipFrames(m_decoder, 1);
+        }
+    }
+
+    return true;
+}
+
+bool QJpegXLHandler::jumpToImage(int imageNumber)
+{
+    if (!ensureALLCounted()) {
+        return false;
+    }
+
+    if (imageNumber < 0 || imageNumber >= m_framedelays.count()) {
+        return false;
+    }
+
+    if (imageNumber == m_currentimage_index) {
+        return true;
+    }
+
+    if (imageNumber > m_currentimage_index) {
+        JxlDecoderSkipFrames(m_decoder, imageNumber - m_currentimage_index);
+        m_currentimage_index = imageNumber;
+        return true;
+    }
+
+    if (!rewind()) {
+        return false;
+    }
+
+    if (imageNumber > 0) {
+        JxlDecoderSkipFrames(m_decoder, imageNumber);
+    }
+    m_currentimage_index = imageNumber;
+    return true;
+}
+
+int QJpegXLHandler::nextImageDelay() const
+{
+    if (!ensureALLCounted()) {
+        return 0;
+    }
+
+    if (m_framedelays.count() < 2) {
+        return 0;
+    }
+
+    return m_next_image_delay;
+}
+
+int QJpegXLHandler::loopCount() const
+{
+    if (!ensureParsed()) {
+        return 0;
+    }
+
+    if (m_basicinfo.have_animation) {
+        return 1;
+    } else {
+        return 0;
+    }
+}
+
+bool QJpegXLHandler::rewind()
+{
+    m_currentimage_index = 0;
+
+    JxlDecoderReleaseInput(m_decoder);
+    JxlDecoderRewind(m_decoder);
+    if (m_runner) {
+        if (JxlDecoderSetParallelRunner(m_decoder, JxlThreadParallelRunner, m_runner) != JXL_DEC_SUCCESS) {
+            qWarning("ERROR: JxlDecoderSetParallelRunner failed");
+            m_parseState = ParseJpegXLError;
+            return false;
+        }
+    }
+
+    if (JxlDecoderSetInput(m_decoder, (const uint8_t *)m_rawData.constData(), m_rawData.size()) != JXL_DEC_SUCCESS) {
+        qWarning("ERROR: JxlDecoderSetInput failed");
+        m_parseState = ParseJpegXLError;
+        return false;
+    }
+
+    if (m_basicinfo.uses_original_profile) {
+        if (JxlDecoderSubscribeEvents(m_decoder, JXL_DEC_FULL_IMAGE) != JXL_DEC_SUCCESS) {
+            qWarning("ERROR: JxlDecoderSubscribeEvents failed");
+            m_parseState = ParseJpegXLError;
+            return false;
+        }
+    } else {
+        if (JxlDecoderSubscribeEvents(m_decoder, JXL_DEC_COLOR_ENCODING | JXL_DEC_FULL_IMAGE) != JXL_DEC_SUCCESS) {
+            qWarning("ERROR: JxlDecoderSubscribeEvents failed");
+            m_parseState = ParseJpegXLError;
+            return false;
+        }
+
+        JxlDecoderStatus status = JxlDecoderProcessInput(m_decoder);
+        if (status != JXL_DEC_COLOR_ENCODING) {
+            qWarning("Unexpected event %d instead of JXL_DEC_COLOR_ENCODING", status);
+            m_parseState = ParseJpegXLError;
+            return false;
+        }
+
+        JxlColorEncoding color_encoding;
+        JxlColorEncodingSetToSRGB(&color_encoding, JXL_FALSE);
+        JxlDecoderSetPreferredColorProfile(m_decoder, &color_encoding);
+    }
+
+    return true;
+}
+
+QImageIOPlugin::Capabilities QJpegXLPlugin::capabilities(QIODevice *device, const QByteArray &format) const
+{
+    if (format == "jxl") {
+        return Capabilities(CanRead | CanWrite);
+    }
+
+    if (!format.isEmpty()) {
+        return {};
+    }
+    if (!device->isOpen()) {
+        return {};
+    }
+
+    Capabilities cap;
+    if (device->isReadable() && QJpegXLHandler::canRead(device)) {
+        cap |= CanRead;
+    }
+
+    if (device->isWritable()) {
+        cap |= CanWrite;
+    }
+
+    return cap;
+}
+
+QImageIOHandler *QJpegXLPlugin::create(QIODevice *device, const QByteArray &format) const
+{
+    QImageIOHandler *handler = new QJpegXLHandler;
+    handler->setDevice(device);
+    handler->setFormat(format);
+    return handler;
+}

src/imageformats/jxl.desktop

@@ -0,0 +1,7 @@
+[Desktop Entry]
+Type=Service
+X-KDE-ServiceTypes=QImageIOPlugins
+X-KDE-ImageFormat=jxl
+X-KDE-MimeType=image/jxl
+X-KDE-Read=true
+X-KDE-Write=true

src/imageformats/jxl.json

@@ -0,0 +1,4 @@
+{
+    "Keys": [ "jxl" ],
+    "MimeTypes": [ "image/jxl" ]
+}

src/imageformats/jxl_p.h

@@ -0,0 +1,96 @@
+/*
+    JPEG XL (JXL) support for QImage.
+
+    SPDX-FileCopyrightText: 2021 Daniel Novomesky <dnovomesky@gmail.com>
+
+    SPDX-License-Identifier: BSD-2-Clause
+*/
+
+#ifndef KIMG_JXL_P_H
+#define KIMG_JXL_P_H
+
+#include <QByteArray>
+#include <QColorSpace>
+#include <QImage>
+#include <QImageIOHandler>
+#include <QImageIOPlugin>
+#include <QVariant>
+#include <QVector>
+
+#include <jxl/decode.h>
+
+class QJpegXLHandler : public QImageIOHandler
+{
+public:
+    QJpegXLHandler();
+    ~QJpegXLHandler();
+
+    bool canRead() const override;
+    bool read(QImage *image) override;
+    bool write(const QImage &image) override;
+
+    static bool canRead(QIODevice *device);
+
+    QVariant option(ImageOption option) const override;
+    void setOption(ImageOption option, const QVariant &value) override;
+    bool supportsOption(ImageOption option) const override;
+
+    int imageCount() const override;
+    int currentImageNumber() const override;
+    bool jumpToNextImage() override;
+    bool jumpToImage(int imageNumber) override;
+
+    int nextImageDelay() const override;
+
+    int loopCount() const override;
+
+private:
+    bool ensureParsed() const;
+    bool ensureALLCounted() const;
+    bool ensureDecoder();
+    bool countALLFrames();
+    bool decode_one_frame();
+    bool rewind();
+
+    enum ParseJpegXLState {
+        ParseJpegXLError = -1,
+        ParseJpegXLNotParsed = 0,
+        ParseJpegXLSuccess = 1,
+        ParseJpegXLBasicInfoParsed = 2,
+    };
+
+    ParseJpegXLState m_parseState;
+    int m_quality;
+    int m_currentimage_index;
+    int m_previousimage_index;
+
+    QByteArray m_rawData;
+
+    JxlDecoder *m_decoder;
+    void *m_runner;
+    JxlBasicInfo m_basicinfo;
+
+    QVector<int> m_framedelays;
+    int m_next_image_delay;
+
+    QImage m_current_image;
+    QColorSpace m_colorspace;
+
+    QImage::Format m_input_image_format;
+    QImage::Format m_target_image_format;
+
+    JxlPixelFormat m_input_pixel_format;
+    size_t m_buffer_size;
+};
+
+class QJpegXLPlugin : public QImageIOPlugin
+{
+    Q_OBJECT
+    Q_PLUGIN_METADATA(IID "org.qt-project.Qt.QImageIOHandlerFactoryInterface" FILE "jxl.json")
+
+public:
+    Capabilities capabilities(QIODevice *device, const QByteArray &format) const override;
+    QImageIOHandler *create(QIODevice *device, const QByteArray &format = QByteArray()) const override;
+};
+
+#endif // KIMG_JXL_P_H

src/imageformats/kra.cpp

@@ -12,9 +12,9 @@
 
 #include <kzip.h>
 
-#include <QImage>
-#include <QIODevice>
 #include <QFile>
+#include <QIODevice>
+#include <QImage>
 
 static constexpr char s_magic[] = "application/x-krita";
 static constexpr int s_magic_size = sizeof(s_magic) - 1; // -1 to remove the last \0
@@ -35,12 +35,16 @@ bool KraHandler::canRead() const
 bool KraHandler::read(QImage *image)
 {
     KZip zip(device());
-    if (!zip.open(QIODevice::ReadOnly)) return false;
+    if (!zip.open(QIODevice::ReadOnly)) {
+        return false;
+    }
 
     const KArchiveEntry *entry = zip.directory()->entry(QStringLiteral("mergedimage.png"));
-    if (!entry || !entry->isFile()) return false;
+    if (!entry || !entry->isFile()) {
+        return false;
+    }
 
-    const KZipFileEntry* fileZipEntry = static_cast<const KZipFileEntry*>(entry);
+    const KZipFileEntry *fileZipEntry = static_cast<const KZipFileEntry *>(entry);
 
     image->loadFromData(fileZipEntry->data(), "PNG");
 
@@ -55,8 +59,9 @@ bool KraHandler::canRead(QIODevice *device)
     }
 
     char buff[57];
-    if (device->peek(buff, sizeof(buff)) == sizeof(buff))
+    if (device->peek(buff, sizeof(buff)) == sizeof(buff)) {
         return memcmp(buff + 0x26, s_magic, s_magic_size) == 0;
+    }
 
     return false;
 }

src/imageformats/kra.h

@@ -16,7 +16,7 @@ public:
     KraHandler();
 
     bool canRead() const override;
-    bool read(QImage *image)  override;
+    bool read(QImage *image) override;
 
     static bool canRead(QIODevice *device);
 };
@@ -31,6 +31,4 @@ public:
     QImageIOHandler *create(QIODevice *device, const QByteArray &format = QByteArray()) const override;
 };
 
-
-
 #endif

src/imageformats/ora.cpp

@@ -34,12 +34,16 @@ bool OraHandler::canRead() const
 bool OraHandler::read(QImage *image)
 {
     KZip zip(device());
-    if (!zip.open(QIODevice::ReadOnly)) return false;
+    if (!zip.open(QIODevice::ReadOnly)) {
+        return false;
+    }
 
     const KArchiveEntry *entry = zip.directory()->entry(QStringLiteral("mergedimage.png"));
-    if (!entry || !entry->isFile()) return false;
+    if (!entry || !entry->isFile()) {
+        return false;
+    }
 
-    const KZipFileEntry* fileZipEntry = static_cast<const KZipFileEntry*>(entry);
+    const KZipFileEntry *fileZipEntry = static_cast<const KZipFileEntry *>(entry);
 
     image->loadFromData(fileZipEntry->data(), "PNG");
 
@@ -54,8 +58,9 @@ bool OraHandler::canRead(QIODevice *device)
     }
 
     char buff[54];
-    if (device->peek(buff, sizeof(buff)) == sizeof(buff))
+    if (device->peek(buff, sizeof(buff)) == sizeof(buff)) {
         return memcmp(buff + 0x26, s_magic, s_magic_size) == 0;
+    }
 
     return false;
 }

src/imageformats/ora.h

@@ -16,12 +16,11 @@ public:
     OraHandler();
 
     bool canRead() const override;
-    bool read(QImage *image)  override;
+    bool read(QImage *image) override;
 
     static bool canRead(QIODevice *device);
 };
 
-
 class OraPlugin : public QImageIOPlugin
 {
     Q_OBJECT
@@ -31,6 +30,4 @@ public:
     QImageIOHandler *create(QIODevice *device, const QByteArray &format = QByteArray()) const override;
 };
 
-
 #endif
-

src/imageformats/pcx.cpp

@@ -12,8 +12,7 @@
 #include <QDebug>
 #include <QImage>
 
-
-#pragma pack(push,1)
+#pragma pack(push, 1)
 class RGB
 {
 public:
@@ -29,7 +28,6 @@ public:
         c.b = qBlue(color);
         return c;
     }
-
 };
 
 class Palette
@@ -37,7 +35,7 @@ class Palette
 public:
     void setColor(int i, const QRgb color)
     {
-        RGB &c = rgb[ i ];
+        RGB &c = rgb[i];
         c.r = qRed(color);
         c.g = qGreen(color);
         c.b = qBlue(color);
@@ -45,10 +43,10 @@ public:
 
     QRgb color(int i) const
     {
-        return qRgb(rgb[ i ].r, rgb[ i ].g, rgb[ i ].b);
+        return qRgb(rgb[i].r, rgb[i].g, rgb[i].b);
     }
 
-    class RGB rgb[ 16 ];
+    class RGB rgb[16];
 };
 
 class PCXHEADER
@@ -69,8 +67,8 @@ public:
         return (Encoding == 1);
     }
 
-    quint8  Manufacturer;    // Constant Flag, 10 = ZSoft .pcx
-    quint8  Version;         // Version information·
+    quint8 Manufacturer; // Constant Flag, 10 = ZSoft .pcx
+    quint8 Version; // Version information·
     // 0 = Version 2.5 of PC Paintbrush·
     // 2 = Version 2.8 w/palette information·
     // 3 = Version 2.8 w/o palette information·
@@ -80,8 +78,8 @@ public:
     //     and PC Paintbrush +, includes
     //     Publisher's Paintbrush . Includes
     //     24-bit .PCX files·
-    quint8  Encoding;        // 1 = .PCX run length encoding
-    quint8  Bpp;             // Number of bits to represent a pixel
+    quint8 Encoding; // 1 = .PCX run length encoding
+    quint8 Bpp; // Number of bits to represent a pixel
     // (per Plane) - 1, 2, 4, or 8·
     quint16 XMin;
     quint16 YMin;
@@ -89,17 +87,17 @@ public:
     quint16 YMax;
     quint16 HDpi;
     quint16 YDpi;
-    Palette  ColorMap;
-    quint8  Reserved;        // Should be set to 0.
-    quint8  NPlanes;         // Number of color planes
-    quint16 BytesPerLine;    // Number of bytes to allocate for a scanline
+    Palette ColorMap;
+    quint8 Reserved; // Should be set to 0.
+    quint8 NPlanes; // Number of color planes
+    quint16 BytesPerLine; // Number of bytes to allocate for a scanline
     // plane.  MUST be an EVEN number.  Do NOT
     // calculate from Xmax-Xmin.·
-    quint16 PaletteInfo;     // How to interpret palette- 1 = Color/BW,
+    quint16 PaletteInfo; // How to interpret palette- 1 = Color/BW,
     // 2 = Grayscale ( ignored in PB IV/ IV + )·
-    quint16 HScreenSize;     // Horizontal screen size in pixels. New field
+    quint16 HScreenSize; // Horizontal screen size in pixels. New field
     // found only in PB IV/IV Plus
-    quint16 VScreenSize;     // Vertical screen size in pixels. New field
+    quint16 VScreenSize; // Vertical screen size in pixels. New field
     // found only in PB IV/IV Plus
 };
 
@@ -107,7 +105,9 @@ public:
 
 static QDataStream &operator>>(QDataStream &s, RGB &rgb)
 {
-    quint8 r, g, b;
+    quint8 r;
+    quint8 g;
+    quint8 b;
 
     s >> r >> g >> b;
     rgb.r = r;
@@ -120,7 +120,7 @@ static QDataStream &operator>>(QDataStream &s, RGB &rgb)
 static QDataStream &operator>>(QDataStream &s, Palette &pal)
 {
     for (int i = 0; i < 16; ++i) {
-        s >> pal.rgb[ i ];
+        s >> pal.rgb[i];
     }
 
     return s;
@@ -128,35 +128,48 @@ static QDataStream &operator>>(QDataStream &s, Palette &pal)
 
 static QDataStream &operator>>(QDataStream &s, PCXHEADER &ph)
 {
-    quint8 m, ver, enc, bpp;
+    quint8 m;
+    quint8 ver;
+    quint8 enc;
+    quint8 bpp;
     s >> m >> ver >> enc >> bpp;
     ph.Manufacturer = m;
     ph.Version = ver;
     ph.Encoding = enc;
     ph.Bpp = bpp;
-    quint16 xmin, ymin, xmax, ymax;
+    quint16 xmin;
+    quint16 ymin;
+    quint16 xmax;
+    quint16 ymax;
     s >> xmin >> ymin >> xmax >> ymax;
     ph.XMin = xmin;
     ph.YMin = ymin;
     ph.XMax = xmax;
     ph.YMax = ymax;
-    quint16 hdpi, ydpi;
+    quint16 hdpi;
+    quint16 ydpi;
     s >> hdpi >> ydpi;
     ph.HDpi = hdpi;
     ph.YDpi = ydpi;
     Palette colorMap;
-    quint8 res, np;
+    quint8 res;
+    quint8 np;
     s >> colorMap >> res >> np;
     ph.ColorMap = colorMap;
     ph.Reserved = res;
     ph.NPlanes = np;
     quint16 bytesperline;
-    s >> bytesperline; ph.BytesPerLine = bytesperline;
+    s >> bytesperline;
+    ph.BytesPerLine = bytesperline;
     quint16 paletteinfo;
-    s >> paletteinfo; ph.PaletteInfo = paletteinfo;
-    quint16 hscreensize, vscreensize;
-    s >> hscreensize; ph.HScreenSize = hscreensize;
-    s >> vscreensize; ph.VScreenSize = vscreensize;
+    s >> paletteinfo;
+    ph.PaletteInfo = paletteinfo;
+    quint16 hscreensize;
+    quint16 vscreensize;
+    s >> hscreensize;
+    ph.HScreenSize = hscreensize;
+    s >> vscreensize;
+    ph.VScreenSize = vscreensize;
 
     // Skip the rest of the header
     quint8 byte;
@@ -177,7 +190,7 @@ static QDataStream &operator<<(QDataStream &s, const RGB rgb)
 static QDataStream &operator<<(QDataStream &s, const Palette &pal)
 {
     for (int i = 0; i < 16; ++i) {
-        s << pal.rgb[ i ];
+        s << pal.rgb[i];
     }
 
     return s;
@@ -220,7 +233,8 @@ static void readLine(QDataStream &s, QByteArray &buf, const PCXHEADER &header)
 {
     quint32 i = 0;
     quint32 size = buf.size();
-    quint8 byte, count;
+    quint8 byte;
+    quint8 count;
 
     if (header.isCompressed()) {
         // Uncompress the image data
@@ -232,14 +246,14 @@ static void readLine(QDataStream &s, QByteArray &buf, const PCXHEADER &header)
                 s >> byte;
             }
             while (count-- && i < size) {
-                buf[ i++ ] = byte;
+                buf[i++] = byte;
             }
         }
     } else {
         // Image is not compressed (possible?)
         while (i < size) {
             s >> byte;
-            buf[ i++ ] = byte;
+            buf[i++] = byte;
         }
     }
 }
@@ -266,7 +280,7 @@ static void readImage1(QImage &img, QDataStream &s, const PCXHEADER &header)
         uchar *p = img.scanLine(y);
         unsigned int bpl = qMin((quint16)((header.width() + 7) / 8), header.BytesPerLine);
         for (unsigned int x = 0; x < bpl; ++x) {
-            p[ x ] = buf[x];
+            p[x] = buf[x];
         }
     }
 
@@ -298,10 +312,11 @@ static void readImage4(QImage &img, QDataStream &s, const PCXHEADER &header)
 
         for (int i = 0; i < 4; i++) {
             quint32 offset = i * header.BytesPerLine;
-            for (int x = 0; x < header.width(); ++x)
-                if (buf[ offset + (x / 8) ] & (128 >> (x % 8))) {
-                    pixbuf[ x ] = (int)(pixbuf[ x ]) + (1 << i);
+            for (int x = 0; x < header.width(); ++x) {
+                if (buf[offset + (x / 8)] & (128 >> (x % 8))) {
+                    pixbuf[x] = (int)(pixbuf[x]) + (1 << i);
                 }
+            }
         }
 
         uchar *p = img.scanLine(y);
@@ -309,7 +324,7 @@ static void readImage4(QImage &img, QDataStream &s, const PCXHEADER &header)
             qWarning() << "Failed to get scanline for" << y << "might be out of bounds";
         }
         for (int x = 0; x < header.width(); ++x) {
-            p[ x ] = pixbuf[ x ];
+            p[x] = pixbuf[x];
         }
     }
 
@@ -341,22 +356,25 @@ static void readImage8(QImage &img, QDataStream &s, const PCXHEADER &header)
 
         uchar *p = img.scanLine(y);
 
-        if (!p)
+        if (!p) {
             return;
+        }
 
         unsigned int bpl = qMin(header.BytesPerLine, (quint16)header.width());
         for (unsigned int x = 0; x < bpl; ++x) {
-            p[ x ] = buf[ x ];
+            p[x] = buf[x];
         }
     }
 
     quint8 flag;
     s >> flag;
-//   qDebug() << "Palette Flag: " << flag;
+    //   qDebug() << "Palette Flag: " << flag;
 
     if (flag == 12 && (header.Version == 5 || header.Version == 2)) {
         // Read the palette
-        quint8 r, g, b;
+        quint8 r;
+        quint8 g;
+        quint8 b;
         for (int i = 0; i < 256; ++i) {
             s >> r >> g >> b;
             img.setColor(i, qRgb(r, g, b));
@@ -389,7 +407,7 @@ static void readImage24(QImage &img, QDataStream &s, const PCXHEADER &header)
 
         uint *p = (uint *)img.scanLine(y);
         for (int x = 0; x < header.width(); ++x) {
-            p[ x ] = qRgb(r_buf[ x ], g_buf[ x ], b_buf[ x ]);
+            p[x] = qRgb(r_buf[x], g_buf[x], b_buf[x]);
         }
     }
 }
@@ -398,14 +416,15 @@ static void writeLine(QDataStream &s, QByteArray &buf)
 {
     quint32 i = 0;
     quint32 size = buf.size();
-    quint8 count, data;
+    quint8 count;
+    quint8 data;
     char byte;
 
     while (i < size) {
         count = 1;
-        byte = buf[ i++ ];
+        byte = buf[i++];
 
-        while ((i < size) && (byte == buf[ i ]) && (count < 63)) {
+        while ((i < size) && (byte == buf[i]) && (count < 63)) {
             ++i;
             ++count;
         }
@@ -438,7 +457,7 @@ static void writeImage1(QImage &img, QDataStream &s, PCXHEADER &header)
 
         // Invert as QImage uses reverse palette for monochrome images?
         for (int i = 0; i < header.BytesPerLine; ++i) {
-            buf[ i ] = ~p[ i ];
+            buf[i] = ~p[i];
         }
 
         writeLine(s, buf);
@@ -457,28 +476,29 @@ static void writeImage4(QImage &img, QDataStream &s, PCXHEADER &header)
 
     s << header;
 
-    QByteArray buf[ 4 ];
+    QByteArray buf[4];
 
     for (int i = 0; i < 4; ++i) {
-        buf[ i ].resize(header.BytesPerLine);
+        buf[i].resize(header.BytesPerLine);
     }
 
     for (int y = 0; y < header.height(); ++y) {
         quint8 *p = img.scanLine(y);
 
         for (int i = 0; i < 4; ++i) {
-            buf[ i ].fill(0);
+            buf[i].fill(0);
         }
 
         for (int x = 0; x < header.width(); ++x) {
-            for (int i = 0; i < 4; ++i)
+            for (int i = 0; i < 4; ++i) {
                 if (*(p + x) & (1 << i)) {
-                    buf[ i ][ x / 8 ] = (int)(buf[ i ][ x / 8 ]) | 1 << (7 - x % 8);
+                    buf[i][x / 8] = (int)(buf[i][x / 8]) | 1 << (7 - x % 8);
                 }
+            }
         }
 
         for (int i = 0; i < 4; ++i) {
-            writeLine(s, buf[ i ]);
+            writeLine(s, buf[i]);
         }
     }
 }
@@ -497,7 +517,7 @@ static void writeImage8(QImage &img, QDataStream &s, PCXHEADER &header)
         quint8 *p = img.scanLine(y);
 
         for (int i = 0; i < header.BytesPerLine; ++i) {
-            buf[ i ] = p[ i ];
+            buf[i] = p[i];
         }
 
         writeLine(s, buf);
@@ -530,9 +550,9 @@ static void writeImage24(QImage &img, QDataStream &s, PCXHEADER &header)
 
         for (int x = 0; x < header.width(); ++x) {
             QRgb rgb = *p++;
-            r_buf[ x ] = qRed(rgb);
-            g_buf[ x ] = qGreen(rgb);
-            b_buf[ x ] = qBlue(rgb);
+            r_buf[x] = qRed(rgb);
+            g_buf[x] = qGreen(rgb);
+            b_buf[x] = qBlue(rgb);
         }
 
         writeLine(s, r_buf);
@@ -571,19 +591,19 @@ bool PCXHandler::read(QImage *outImage)
         return false;
     }
 
-//   int w = header.width();
-//   int h = header.height();
+    //   int w = header.width();
+    //   int h = header.height();
 
-//   qDebug() << "Manufacturer: " << header.Manufacturer;
-//   qDebug() << "Version: " << header.Version;
-//   qDebug() << "Encoding: " << header.Encoding;
-//   qDebug() << "Bpp: " << header.Bpp;
-//   qDebug() << "Width: " << w;
-//   qDebug() << "Height: " << h;
-//   qDebug() << "Window: " << header.XMin << "," << header.XMax << ","
-//                  << header.YMin << "," << header.YMax << endl;
-//   qDebug() << "BytesPerLine: " << header.BytesPerLine;
-//   qDebug() << "NPlanes: " << header.NPlanes;
+    //   qDebug() << "Manufacturer: " << header.Manufacturer;
+    //   qDebug() << "Version: " << header.Version;
+    //   qDebug() << "Encoding: " << header.Encoding;
+    //   qDebug() << "Bpp: " << header.Bpp;
+    //   qDebug() << "Width: " << w;
+    //   qDebug() << "Height: " << h;
+    //   qDebug() << "Window: " << header.XMin << "," << header.XMax << ","
+    //                  << header.YMin << "," << header.YMax << endl;
+    //   qDebug() << "BytesPerLine: " << header.BytesPerLine;
+    //   qDebug() << "NPlanes: " << header.NPlanes;
 
     QImage img;
 
@@ -597,9 +617,9 @@ bool PCXHandler::read(QImage *outImage)
         readImage24(img, s, header);
     }
 
-//   qDebug() << "Image Bytes: " << img.numBytes();
-//   qDebug() << "Image Bytes Per Line: " << img.bytesPerLine();
-//   qDebug() << "Image Depth: " << img.depth();
+    //   qDebug() << "Image Bytes: " << img.numBytes();
+    //   qDebug() << "Image Bytes Per Line: " << img.bytesPerLine();
+    //   qDebug() << "Image Depth: " << img.depth();
 
     if (!img.isNull()) {
         *outImage = img;
@@ -616,14 +636,18 @@ bool PCXHandler::write(const QImage &image)
 
     QImage img = image;
 
-    int w = img.width();
-    int h = img.height();
+    const int w = img.width();
+    const int h = img.height();
 
-//   qDebug() << "Width: " << w;
-//   qDebug() << "Height: " << h;
-//   qDebug() << "Depth: " << img.depth();
-//   qDebug() << "BytesPerLine: " << img.bytesPerLine();
-//   qDebug() << "Color Count: " << img.colorCount();
+    if (w > 65536 || h > 65536) {
+        return false;
+    }
+
+    //   qDebug() << "Width: " << w;
+    //   qDebug() << "Height: " << h;
+    //   qDebug() << "Depth: " << img.depth();
+    //   qDebug() << "BytesPerLine: " << img.bytesPerLine();
+    //   qDebug() << "Color Count: " << img.colorCount();
 
     PCXHEADER header;
 

src/imageformats/pic.cpp

@@ -21,9 +21,10 @@
 #include <QDebug>
 #include <QImage>
 #include <QVariant>
-#include <qendian.h>
 #include <algorithm>
 #include <functional>
+#include <qendian.h>
+#include <utility>
 
 /**
  * Reads a PIC file header from a data stream.
@@ -34,7 +35,7 @@
  *
  * @relates PicHeader
  */
-static QDataStream &operator>> (QDataStream &s, PicHeader &header)
+static QDataStream &operator>>(QDataStream &s, PicHeader &header)
 {
     s.setFloatingPointPrecision(QDataStream::SinglePrecision);
     s >> header.magic;
@@ -71,7 +72,7 @@ static QDataStream &operator>> (QDataStream &s, PicHeader &header)
  *
  * @relates PicHeader
  */
-static QDataStream &operator<< (QDataStream &s, const PicHeader &header)
+static QDataStream &operator<<(QDataStream &s, const PicHeader &header)
 {
     s.setFloatingPointPrecision(QDataStream::SinglePrecision);
     s << header.magic;
@@ -107,7 +108,7 @@ static QDataStream &operator<< (QDataStream &s, const PicHeader &header)
  *
  * @relates PicChannel
  */
-static QDataStream &operator>> (QDataStream &s, QList<PicChannel> &channels)
+static QDataStream &operator>>(QDataStream &s, QList<PicChannel> &channels)
 {
     const unsigned maxChannels = 8;
     unsigned count = 0;
@@ -142,7 +143,7 @@ static QDataStream &operator>> (QDataStream &s, QList<PicChannel> &channels)
  *
  * @relates PicChannel
  */
-static QDataStream &operator<< (QDataStream &s, const QList<PicChannel> &channels)
+static QDataStream &operator<<(QDataStream &s, const QList<PicChannel> &channels)
 {
     Q_ASSERT(channels.size() > 0);
     for (int i = 0; i < channels.size() - 1; ++i) {
@@ -160,8 +161,8 @@ static QDataStream &operator<< (QDataStream &s, const QList<PicChannel> &channel
 
 static bool readRow(QDataStream &stream, QRgb *row, quint16 width, const QList<PicChannel> &channels)
 {
-    for(const PicChannel &channel : channels) {
-        auto readPixel = [&] (QDataStream &str) -> QRgb {
+    for (const PicChannel &channel : channels) {
+        auto readPixel = [&](QDataStream &str) -> QRgb {
             quint8 red = 0;
             if (channel.code & RED) {
                 str >> red;
@@ -180,16 +181,14 @@ static bool readRow(QDataStream &stream, QRgb *row, quint16 width, const QList<P
             }
             return qRgba(red, green, blue, alpha);
         };
-        auto updatePixel = [&] (QRgb oldPixel, QRgb newPixel) -> QRgb {
-            return qRgba(
-                qRed((channel.code & RED) ? newPixel : oldPixel),
-                qGreen((channel.code & GREEN) ? newPixel : oldPixel),
-                qBlue((channel.code & BLUE) ? newPixel : oldPixel),
-                qAlpha((channel.code & ALPHA) ? newPixel : oldPixel));
+        auto updatePixel = [&](QRgb oldPixel, QRgb newPixel) -> QRgb {
+            return qRgba(qRed((channel.code & RED) ? newPixel : oldPixel),
+                         qGreen((channel.code & GREEN) ? newPixel : oldPixel),
+                         qBlue((channel.code & BLUE) ? newPixel : oldPixel),
+                         qAlpha((channel.code & ALPHA) ? newPixel : oldPixel));
         };
         if (channel.encoding == MixedRLE) {
-            bool success = decodeRLEData(RLEVariant::PIC, stream, row, width,
-                                         readPixel, updatePixel);
+            bool success = decodeRLEData(RLEVariant::PIC, stream, row, width, readPixel, updatePixel);
             if (!success) {
                 qDebug() << "decodeRLEData failed";
                 return false;
@@ -227,7 +226,7 @@ bool SoftimagePICHandler::read(QImage *image)
     }
 
     QImage::Format fmt = QImage::Format_RGB32;
-    for (const PicChannel &channel : qAsConst(m_channels)) {
+    for (const PicChannel &channel : std::as_const(m_channels)) {
         if (channel.size != 8) {
             // we cannot read images that do not come in bytes
             qDebug() << "Channel size was" << channel.size;
@@ -245,10 +244,10 @@ bool SoftimagePICHandler::read(QImage *image)
         return false;
     }
 
-    img.fill(qRgb(0,0,0));
+    img.fill(qRgb(0, 0, 0));
 
     for (int y = 0; y < m_header.height; y++) {
-        QRgb *row = reinterpret_cast<QRgb*>(img.scanLine(y));
+        QRgb *row = reinterpret_cast<QRgb *>(img.scanLine(y));
         if (!readRow(m_dataStream, row, m_header.width, m_channels)) {
             qDebug() << "readRow failed";
             m_state = Error;
@@ -265,9 +264,7 @@ bool SoftimagePICHandler::read(QImage *image)
 bool SoftimagePICHandler::write(const QImage &_image)
 {
     bool alpha = _image.hasAlphaChannel();
-    const QImage image = _image.convertToFormat(
-            alpha ? QImage::Format_ARGB32
-                  : QImage::Format_RGB32);
+    const QImage image = _image.convertToFormat(alpha ? QImage::Format_ARGB32 : QImage::Format_RGB32);
 
     if (image.width() < 0 || image.height() < 0) {
         qDebug() << "Image size invalid:" << image.width() << image.height();
@@ -292,22 +289,17 @@ bool SoftimagePICHandler::write(const QImage &_image)
     stream << channels;
 
     for (int r = 0; r < image.height(); r++) {
-        const QRgb *row = reinterpret_cast<const QRgb*>(image.scanLine(r));
+        const QRgb *row = reinterpret_cast<const QRgb *>(image.scanLine(r));
 
         /* Write the RGB part of the scanline */
-        auto rgbEqual = [] (QRgb p1, QRgb p2) -> bool {
-            return qRed(p1) == qRed(p2) &&
-                   qGreen(p1) == qGreen(p2) &&
-                   qBlue(p1) == qBlue(p2);
+        auto rgbEqual = [](QRgb p1, QRgb p2) -> bool {
+            return qRed(p1) == qRed(p2) && qGreen(p1) == qGreen(p2) && qBlue(p1) == qBlue(p2);
         };
-        auto writeRgb = [] (QDataStream &str, QRgb pixel) -> void {
-            str << quint8(qRed(pixel))
-                << quint8(qGreen(pixel))
-                << quint8(qBlue(pixel));
+        auto writeRgb = [](QDataStream &str, QRgb pixel) -> void {
+            str << quint8(qRed(pixel)) << quint8(qGreen(pixel)) << quint8(qBlue(pixel));
         };
         if (m_compression) {
-            encodeRLEData(RLEVariant::PIC, stream, row, image.width(),
-                          rgbEqual, writeRgb);
+            encodeRLEData(RLEVariant::PIC, stream, row, image.width(), rgbEqual, writeRgb);
         } else {
             for (int i = 0; i < image.width(); ++i) {
                 writeRgb(stream, row[i]);
@@ -316,15 +308,14 @@ bool SoftimagePICHandler::write(const QImage &_image)
 
         /* Write the alpha channel */
         if (alpha) {
-            auto alphaEqual = [] (QRgb p1, QRgb p2) -> bool {
+            auto alphaEqual = [](QRgb p1, QRgb p2) -> bool {
                 return qAlpha(p1) == qAlpha(p2);
             };
-            auto writeAlpha = [] (QDataStream &str, QRgb pixel) -> void {
+            auto writeAlpha = [](QDataStream &str, QRgb pixel) -> void {
                 str << quint8(qAlpha(pixel));
             };
             if (m_compression) {
-                encodeRLEData(RLEVariant::PIC, stream, row, image.width(),
-                              alphaEqual, writeAlpha);
+                encodeRLEData(RLEVariant::PIC, stream, row, image.width(), alphaEqual, writeAlpha);
             } else {
                 for (int i = 0; i < image.width(); ++i) {
                     writeAlpha(stream, row[i]);
@@ -341,7 +332,7 @@ bool SoftimagePICHandler::canRead(QIODevice *device)
     if (device->peek(data, 4) != 4) {
         return false;
     }
-    return qFromBigEndian<qint32>(reinterpret_cast<uchar*>(data)) == PIC_MAGIC_NUMBER;
+    return qFromBigEndian<qint32>(reinterpret_cast<uchar *>(data)) == PIC_MAGIC_NUMBER;
 }
 
 bool SoftimagePICHandler::readHeader()
@@ -374,67 +365,62 @@ bool SoftimagePICHandler::readChannels()
 void SoftimagePICHandler::setOption(ImageOption option, const QVariant &value)
 {
     switch (option) {
-        case CompressionRatio:
-            m_compression = value.toBool();
-            break;
-        case Description: {
-            m_description.clear();
-            const QStringList entries = value.toString().split(QStringLiteral("\n\n"));
-            for (const QString &entry : entries) {
-                if (entry.startsWith(QStringLiteral("Description: "))) {
-                    m_description = entry.mid(13).simplified().toUtf8();
-                }
+    case CompressionRatio:
+        m_compression = value.toBool();
+        break;
+    case Description: {
+        m_description.clear();
+        const QStringList entries = value.toString().split(QStringLiteral("\n\n"));
+        for (const QString &entry : entries) {
+            if (entry.startsWith(QStringLiteral("Description: "))) {
+                m_description = entry.mid(13).simplified().toUtf8();
             }
-            break;
         }
-        default:
-            break;
+        break;
+    }
+    default:
+        break;
     }
 }
 
 QVariant SoftimagePICHandler::option(ImageOption option) const
 {
-    const_cast<SoftimagePICHandler*>(this)->readHeader();
+    const_cast<SoftimagePICHandler *>(this)->readHeader();
     switch (option) {
-        case Size:
-            if (const_cast<SoftimagePICHandler*>(this)->readHeader()) {
-                return QSize(m_header.width, m_header.height);
-            } else {
-                return QVariant();
+    case Size:
+        if (const_cast<SoftimagePICHandler *>(this)->readHeader()) {
+            return QSize(m_header.width, m_header.height);
+        } else {
+            return QVariant();
+        }
+    case CompressionRatio:
+        return m_compression;
+    case Description:
+        if (const_cast<SoftimagePICHandler *>(this)->readHeader()) {
+            QString descStr = QString::fromUtf8(m_header.comment);
+            if (!descStr.isEmpty()) {
+                return QString(QStringLiteral("Description: ") + descStr + QStringLiteral("\n\n"));
             }
-        case CompressionRatio:
-            return m_compression;
-        case Description:
-            if (const_cast<SoftimagePICHandler*>(this)->readHeader()) {
-                QString descStr = QString::fromUtf8(m_header.comment);
-                if (!descStr.isEmpty()) {
-                    return QString(QStringLiteral("Description: ") +
-                           descStr +
-                           QStringLiteral("\n\n"));
+        }
+        return QString();
+    case ImageFormat:
+        if (const_cast<SoftimagePICHandler *>(this)->readChannels()) {
+            for (const PicChannel &channel : std::as_const(m_channels)) {
+                if (channel.code & ALPHA) {
+                    return QImage::Format_ARGB32;
                 }
             }
-            return QString();
-        case ImageFormat:
-            if (const_cast<SoftimagePICHandler*>(this)->readChannels()) {
-                for (const PicChannel &channel : qAsConst(m_channels)) {
-                    if (channel.code & ALPHA) {
-                        return QImage::Format_ARGB32;
-                    }
-                }
-                return QImage::Format_RGB32;
-            }
-            return QVariant();
-        default:
-            return QVariant();
+            return QImage::Format_RGB32;
+        }
+        return QVariant();
+    default:
+        return QVariant();
     }
 }
 
 bool SoftimagePICHandler::supportsOption(ImageOption option) const
 {
-    return (option == CompressionRatio ||
-            option == Description ||
-            option == ImageFormat ||
-            option == Size);
+    return (option == CompressionRatio || option == Description || option == ImageFormat || option == Size);
 }
 
 QImageIOPlugin::Capabilities SoftimagePICPlugin::capabilities(QIODevice *device, const QByteArray &format) const

src/imageformats/pic_p.h

@@ -8,8 +8,8 @@
 #ifndef KIMG_PIC_P_H
 #define KIMG_PIC_P_H
 
-#include <QImageIOPlugin>
 #include <QDataStream>
+#include <QImageIOPlugin>
 
 /**
  * The magic number at the start of a SoftImage PIC file.
@@ -25,7 +25,7 @@ enum PicFields {
     NoPicture = 0, /**< No picture */
     OddScanlines = 1, /**< Odd scanlines */
     EvenScanlines = 2, /**< Even scanlines */
-    BothScanlines = 3 /**< Every scanline */
+    BothScanlines = 3, /**< Every scanline */
 };
 
 /**
@@ -33,7 +33,7 @@ enum PicFields {
  */
 enum PicChannelEncoding {
     Uncompressed = 0, /**< Image is uncompressed */
-    MixedRLE = 2 /**< Run length compression */
+    MixedRLE = 2, /**< Run length compression */
 };
 
 /**
@@ -43,7 +43,7 @@ enum PicChannelCode {
     RED = 0x80, /**< Red channel */
     GREEN = 0x40, /**< Green channel */
     BLUE = 0x20, /**< Blue channel */
-    ALPHA = 0x10 /**< Alpha channel */
+    ALPHA = 0x10, /**< Alpha channel */
 };
 
 /**
@@ -70,9 +70,12 @@ struct PicHeader {
         , height(_height)
         , ratio(1.0f)
         , fields(BothScanlines)
-    {}
+    {
+    }
     /** Construct an invalid header. */
-    PicHeader() {}
+    PicHeader()
+    {
+    }
 
     quint32 magic; /**< Should be PIC_MAGIC_NUMBER */
     float version; /**< Version of something (header? file format?) (ignored) */
@@ -88,9 +91,9 @@ struct PicHeader {
     /**
      * Returns true if the @p magic and @p id fields are set correctly.
      */
-    bool isValid() const {
-        return magic == PIC_MAGIC_NUMBER
-            && id == "PICT";
+    bool isValid() const
+    {
+        return magic == PIC_MAGIC_NUMBER && id == "PICT";
     }
 
     /**
@@ -123,7 +126,8 @@ struct PicChannel {
         : size(_size)
         , encoding(_encoding)
         , code(_code)
-    {}
+    {
+    }
     /**
      * Constructs a default channel description for a SoftImage PIC file.
      *
@@ -135,7 +139,8 @@ struct PicChannel {
      */
     PicChannel()
         : size(8)
-    {}
+    {
+    }
 };
 
 class SoftimagePICHandler : public QImageIOHandler
@@ -155,13 +160,14 @@ public:
         Error,
         Ready,
         ReadHeader,
-        ReadChannels
+        ReadChannels,
     };
 
     SoftimagePICHandler()
         : m_state(Ready)
         , m_compression(true)
-    {}
+    {
+    }
 
     bool readHeader();
     bool readChannels();

src/imageformats/psd.cpp

@@ -29,9 +29,8 @@ typedef quint32 uint;
 typedef quint16 ushort;
 typedef quint8 uchar;
 
-namespace   // Private.
+namespace // Private.
 {
-
 enum ColorMode {
     CM_BITMAP = 0,
     CM_GRAYSCALE = 1,
@@ -40,7 +39,7 @@ enum ColorMode {
     CM_CMYK = 4,
     CM_MULTICHANNEL = 7,
     CM_DUOTONE = 8,
-    CM_LABCOLOR = 9
+    CM_LABCOLOR = 9,
 };
 
 struct PSDHeader {
@@ -54,7 +53,7 @@ struct PSDHeader {
     ushort color_mode;
 };
 
-static QDataStream &operator>> (QDataStream &s, PSDHeader &header)
+static QDataStream &operator>>(QDataStream &s, PSDHeader &header)
 {
     s >> header.signature;
     s >> header.version;
@@ -72,7 +71,7 @@ static QDataStream &operator>> (QDataStream &s, PSDHeader &header)
 // Check that the header is a valid PSD.
 static bool IsValid(const PSDHeader &header)
 {
-    if (header.signature != 0x38425053) {    // '8BPS'
+    if (header.signature != 0x38425053) { // '8BPS'
         return false;
     }
     return true;
@@ -104,26 +103,31 @@ static void skip_section(QDataStream &s)
     s.skipRawData(section_length);
 }
 
-template <class Trait>
-static Trait readPixel(QDataStream &stream) {
+template<class Trait>
+static Trait readPixel(QDataStream &stream)
+{
     Trait pixel;
     stream >> pixel;
     return pixel;
 }
 
-static QRgb updateRed(QRgb oldPixel, quint8 redPixel) {
+static QRgb updateRed(QRgb oldPixel, quint8 redPixel)
+{
     return qRgba(redPixel, qGreen(oldPixel), qBlue(oldPixel), qAlpha(oldPixel));
 }
-static QRgb updateGreen(QRgb oldPixel, quint8 greenPixel) {
+static QRgb updateGreen(QRgb oldPixel, quint8 greenPixel)
+{
     return qRgba(qRed(oldPixel), greenPixel, qBlue(oldPixel), qAlpha(oldPixel));
 }
-static QRgb updateBlue(QRgb oldPixel, quint8 bluePixel) {
+static QRgb updateBlue(QRgb oldPixel, quint8 bluePixel)
+{
     return qRgba(qRed(oldPixel), qGreen(oldPixel), bluePixel, qAlpha(oldPixel));
 }
-static QRgb updateAlpha(QRgb oldPixel, quint8 alphaPixel) {
+static QRgb updateAlpha(QRgb oldPixel, quint8 alphaPixel)
+{
     return qRgba(qRed(oldPixel), qGreen(oldPixel), qBlue(oldPixel), alphaPixel);
 }
-typedef QRgb(*channelUpdater)(QRgb,quint8);
+typedef QRgb (*channelUpdater)(QRgb, quint8);
 
 // Load the PSD image.
 static bool LoadPSD(QDataStream &stream, const PSDHeader &header, QImage &img)
@@ -151,13 +155,11 @@ static bool LoadPSD(QDataStream &stream, const PSDHeader &header, QImage &img)
 
     quint32 channel_num = header.channel_count;
 
-    QImage::Format fmt = header.depth == 8 ? QImage::Format_RGB32
-                                           : QImage::Format_RGBX64;
+    QImage::Format fmt = header.depth == 8 ? QImage::Format_RGB32 : QImage::Format_RGBX64;
     // Clear the image.
     if (channel_num >= 4) {
         // Enable alpha.
-        fmt = header.depth == 8 ? QImage::Format_ARGB32
-                                : QImage::Format_RGBA64;
+        fmt = header.depth == 8 ? QImage::Format_ARGB32 : QImage::Format_RGBA64;
 
         // Ignore the other channels.
         channel_num = 4;
@@ -168,7 +170,7 @@ static bool LoadPSD(QDataStream &stream, const PSDHeader &header, QImage &img)
         qWarning() << "Failed to allocate image, invalid dimensions?" << QSize(header.width, header.height);
         return false;
     }
-    img.fill(qRgb(0,0,0));
+    img.fill(qRgb(0, 0, 0));
 
     const quint32 pixel_count = header.height * header.width;
     const quint32 channel_size = pixel_count * header.depth / 8;
@@ -179,26 +181,27 @@ static bool LoadPSD(QDataStream &stream, const PSDHeader &header, QImage &img)
         return false;
     }
 
-    QRgb *image_data = reinterpret_cast<QRgb*>(img.bits());
+    QRgb *image_data = reinterpret_cast<QRgb *>(img.bits());
 
     if (!image_data) {
         return false;
     }
 
-    static const channelUpdater updaters[4] = {
-        updateRed,
-        updateGreen,
-        updateBlue,
-        updateAlpha
-    };
+    static const channelUpdater updaters[4] = {updateRed, updateGreen, updateBlue, updateAlpha};
 
-    typedef QRgba64(*channelUpdater16)(QRgba64, quint16);
-    static const channelUpdater16 updaters64[4] = {
-        [](QRgba64 oldPixel, quint16 redPixel)  {return qRgba64((oldPixel & ~(0xFFFFull <<  0)) | (quint64(  redPixel) <<  0));},
-        [](QRgba64 oldPixel, quint16 greenPixel){return qRgba64((oldPixel & ~(0xFFFFull << 16)) | (quint64(greenPixel) << 16));},
-        [](QRgba64 oldPixel, quint16 bluePixel) {return qRgba64((oldPixel & ~(0xFFFFull << 32)) | (quint64( bluePixel) << 32));},
-        [](QRgba64 oldPixel, quint16 alphaPixel){return qRgba64((oldPixel & ~(0xFFFFull << 48)) | (quint64(alphaPixel) << 48));}
-    };
+    typedef QRgba64 (*channelUpdater16)(QRgba64, quint16);
+    static const channelUpdater16 updaters64[4] = {[](QRgba64 oldPixel, quint16 redPixel) {
+                                                       return qRgba64((oldPixel & ~(0xFFFFull << 0)) | (quint64(redPixel) << 0));
+                                                   },
+                                                   [](QRgba64 oldPixel, quint16 greenPixel) {
+                                                       return qRgba64((oldPixel & ~(0xFFFFull << 16)) | (quint64(greenPixel) << 16));
+                                                   },
+                                                   [](QRgba64 oldPixel, quint16 bluePixel) {
+                                                       return qRgba64((oldPixel & ~(0xFFFFull << 32)) | (quint64(bluePixel) << 32));
+                                                   },
+                                                   [](QRgba64 oldPixel, quint16 alphaPixel) {
+                                                       return qRgba64((oldPixel & ~(0xFFFFull << 48)) | (quint64(alphaPixel) << 48));
+                                                   }};
 
     if (compression) {
         // Skip row lengths.
@@ -210,14 +213,10 @@ static bool LoadPSD(QDataStream &stream, const PSDHeader &header, QImage &img)
         for (unsigned short channel = 0; channel < channel_num; channel++) {
             bool success = false;
             if (header.depth == 8) {
-                success = decodeRLEData(RLEVariant::PackBits, stream,
-                                         image_data, channel_size,
-                                         &readPixel<quint8>, updaters[channel]);
+                success = decodeRLEData(RLEVariant::PackBits, stream, image_data, channel_size, &readPixel<quint8>, updaters[channel]);
             } else if (header.depth == 16) {
-                QRgba64 *image_data = reinterpret_cast<QRgba64*>(img.bits());
-                success = decodeRLEData(RLEVariant::PackBits16, stream,
-                                         image_data, channel_size,
-                                         &readPixel<quint8>, updaters64[channel]);
+                QRgba64 *image_data = reinterpret_cast<QRgba64 *>(img.bits());
+                success = decodeRLEData(RLEVariant::PackBits16, stream, image_data, channel_size, &readPixel<quint8>, updaters64[channel]);
             }
 
             if (!success) {
@@ -232,7 +231,7 @@ static bool LoadPSD(QDataStream &stream, const PSDHeader &header, QImage &img)
                     image_data[i] = updaters[channel](image_data[i], readPixel<quint8>(stream));
                 }
             } else if (header.depth == 16) {
-                QRgba64 *image_data = reinterpret_cast<QRgba64*>(img.bits());
+                QRgba64 *image_data = reinterpret_cast<QRgba64 *>(img.bits());
                 for (unsigned i = 0; i < pixel_count; ++i) {
                     image_data[i] = updaters64[channel](image_data[i], readPixel<quint16>(stream));
                 }
@@ -273,19 +272,19 @@ bool PSDHandler::read(QImage *image)
 
     // Check image file format.
     if (s.atEnd() || !IsValid(header)) {
-//         qDebug() << "This PSD file is not valid.";
+        //         qDebug() << "This PSD file is not valid.";
         return false;
     }
 
     // Check if it's a supported format.
     if (!IsSupported(header)) {
-//         qDebug() << "This PSD file is not supported.";
+        //         qDebug() << "This PSD file is not supported.";
         return false;
     }
 
     QImage img;
     if (!LoadPSD(s, header, img)) {
-//         qDebug() << "Error loading PSD file.";
+        //         qDebug() << "Error loading PSD file.";
         return false;
     }
 

src/imageformats/psd_p.h

@@ -32,4 +32,3 @@ public:
 };
 
 #endif // KIMG_PSD_P_H
-

src/imageformats/ras.cpp

@@ -9,11 +9,11 @@
 
 #include "ras_p.h"
 
-#include <QImage>
 #include <QDataStream>
 #include <QDebug>
+#include <QImage>
 
-namespace   // Private.
+namespace // Private.
 {
 // format info from http://www.fileformat.info/format/sunraster/egff.htm
 
@@ -22,19 +22,19 @@ quint32 rasMagicBigEndian = 0x59a66a95;
 // quint32 rasMagicLittleEndian = 0x956aa659; # used to support wrong encoded files
 
 enum RASType {
-    RAS_TYPE_OLD            = 0x0,
-    RAS_TYPE_STANDARD       = 0x1,
-    RAS_TYPE_BYTE_ENCODED       = 0x2,
-    RAS_TYPE_RGB_FORMAT     = 0x3,
-    RAS_TYPE_TIFF_FORMAT        = 0x4,
-    RAS_TYPE_IFF_FORMAT     = 0x5,
-    RAS_TYPE_EXPERIMENTAL       = 0xFFFF
+    RAS_TYPE_OLD = 0x0,
+    RAS_TYPE_STANDARD = 0x1,
+    RAS_TYPE_BYTE_ENCODED = 0x2,
+    RAS_TYPE_RGB_FORMAT = 0x3,
+    RAS_TYPE_TIFF_FORMAT = 0x4,
+    RAS_TYPE_IFF_FORMAT = 0x5,
+    RAS_TYPE_EXPERIMENTAL = 0xFFFF,
 };
 
 enum RASColorMapType {
-    RAS_COLOR_MAP_TYPE_NONE     = 0x0,
-    RAS_COLOR_MAP_TYPE_RGB      = 0x1,
-    RAS_COLOR_MAP_TYPE_RAW      = 0x2
+    RAS_COLOR_MAP_TYPE_NONE = 0x0,
+    RAS_COLOR_MAP_TYPE_RGB = 0x1,
+    RAS_COLOR_MAP_TYPE_RAW = 0x2,
 };
 
 struct RasHeader {
@@ -46,10 +46,12 @@ struct RasHeader {
     quint32 Type;
     quint32 ColorMapType;
     quint32 ColorMapLength;
-    enum { SIZE = 32 }; // 8 fields of four bytes each
+    enum {
+        SIZE = 32,
+    }; // 8 fields of four bytes each
 };
 
-static QDataStream &operator>> (QDataStream &s, RasHeader &head)
+static QDataStream &operator>>(QDataStream &s, RasHeader &head)
 {
     s >> head.MagicNumber;
     s >> head.Width;
@@ -79,8 +81,7 @@ static bool IsSupported(const RasHeader &head)
     // check for an appropriate depth
     // we support 8bit+palette, 24bit and 32bit ONLY!
     // TODO: add support for 1bit
-    if (!((head.Depth == 8 && head.ColorMapType == 1)
-            || head.Depth == 24 || head.Depth == 32)) {
+    if (!((head.Depth == 8 && head.ColorMapType == 1) || head.Depth == 24 || head.Depth == 32)) {
         return false;
     }
     // the Type field adds support for RLE(BGR), RGB and other encodings
@@ -141,7 +142,7 @@ static bool LoadRAS(QDataStream &s, const RasHeader &ras, QImage &img)
     QVector<quint8> input(ras.Length);
 
     int i = 0;
-    while (! s.atEnd() && i < input.size()) {
+    while (!s.atEnd() && i < input.size()) {
         s >> input[i];
         // I guess we need to find out if we're at the end of a line
         if (paddingrequired && i != 0 && !(i % (ras.Width * bpp))) {
@@ -153,13 +154,16 @@ static bool LoadRAS(QDataStream &s, const RasHeader &ras, QImage &img)
     // Allocate image
     img = QImage(ras.Width, ras.Height, QImage::Format_ARGB32);
 
-    if (img.isNull())
+    if (img.isNull()) {
         return false;
+    }
 
     // Reconstruct image from RGB palette if we have a palette
     // TODO: make generic so it works with 24bit or 32bit palettes
     if (ras.ColorMapType == 1 && ras.Depth == 8) {
-        quint8 red, green, blue;
+        quint8 red;
+        quint8 green;
+        quint8 blue;
         for (quint32 y = 0; y < ras.Height; y++) {
             for (quint32 x = 0; x < ras.Width; x++) {
                 red = palette.value((int)input[y * ras.Width + x]);
@@ -168,11 +172,12 @@ static bool LoadRAS(QDataStream &s, const RasHeader &ras, QImage &img)
                 img.setPixel(x, y, qRgb(red, green, blue));
             }
         }
-
     }
 
     if (ras.ColorMapType == 0 && ras.Depth == 24 && (ras.Type == 1 || ras.Type == 2)) {
-        quint8 red, green, blue;
+        quint8 red;
+        quint8 green;
+        quint8 blue;
         for (quint32 y = 0; y < ras.Height; y++) {
             for (quint32 x = 0; x < ras.Width; x++) {
                 red = input[y * 3 * ras.Width + x * 3 + 2];
@@ -184,7 +189,9 @@ static bool LoadRAS(QDataStream &s, const RasHeader &ras, QImage &img)
     }
 
     if (ras.ColorMapType == 0 && ras.Depth == 24 && ras.Type == 3) {
-        quint8 red, green, blue;
+        quint8 red;
+        quint8 green;
+        quint8 blue;
         for (quint32 y = 0; y < ras.Height; y++) {
             for (quint32 x = 0; x < ras.Width; x++) {
                 red = input[y * 3 * ras.Width + x * 3];
@@ -196,7 +203,9 @@ static bool LoadRAS(QDataStream &s, const RasHeader &ras, QImage &img)
     }
 
     if (ras.ColorMapType == 0 && ras.Depth == 32 && (ras.Type == 1 || ras.Type == 2)) {
-        quint8 red, green, blue;
+        quint8 red;
+        quint8 green;
+        quint8 blue;
         for (quint32 y = 0; y < ras.Height; y++) {
             for (quint32 x = 0; x < ras.Width; x++) {
                 red = input[y * 4 * ras.Width + x * 4 + 3];
@@ -208,7 +217,9 @@ static bool LoadRAS(QDataStream &s, const RasHeader &ras, QImage &img)
     }
 
     if (ras.ColorMapType == 0 && ras.Depth == 32 && ras.Type == 3) {
-        quint8 red, green, blue;
+        quint8 red;
+        quint8 green;
+        quint8 blue;
         for (quint32 y = 0; y < ras.Height; y++) {
             for (quint32 x = 0; x < ras.Width; x++) {
                 red = input[y * 4 * ras.Width + x * 4 + 1];
@@ -274,21 +285,22 @@ bool RASHandler::read(QImage *outImage)
     RasHeader ras;
     s >> ras;
 
-    if (ras.ColorMapLength > std::numeric_limits<int>::max())
+    if (ras.ColorMapLength > std::numeric_limits<int>::max()) {
         return false;
+    }
 
     // TODO: add support for old versions of RAS where Length may be zero in header
     s.device()->seek(RasHeader::SIZE + ras.Length + ras.ColorMapLength);
 
     // Check image file format. Type 2 is RLE, which causing seeking to be silly.
     if (!s.atEnd() && ras.Type != 2) {
-//         qDebug() << "This RAS file is not valid, or an older version of the format.";
+        //         qDebug() << "This RAS file is not valid, or an older version of the format.";
         return false;
     }
 
     // Check supported file types.
     if (!IsSupported(ras)) {
-//         qDebug() << "This RAS file is not supported.";
+        //         qDebug() << "This RAS file is not supported.";
         return false;
     }
 
@@ -296,7 +308,7 @@ bool RASHandler::read(QImage *outImage)
     bool result = LoadRAS(s, ras, img);
 
     if (result == false) {
-//         qDebug() << "Error loading RAS file.";
+        //         qDebug() << "Error loading RAS file.";
         return false;
     }
 
@@ -306,7 +318,6 @@ bool RASHandler::read(QImage *outImage)
 
 QImageIOPlugin::Capabilities RASPlugin::capabilities(QIODevice *device, const QByteArray &format) const
 {
-
     if (format == "ras") {
         return Capabilities(CanRead);
     }

src/imageformats/rgb.cpp

@@ -24,14 +24,17 @@
 #include <QMap>
 #include <QVector>
 
-#include <QImage>
 #include <QDebug>
+#include <QImage>
 
 class RLEData : public QVector<uchar>
 {
 public:
-    RLEData() {}
-    RLEData(const uchar *d, uint l, uint o) : _offset(o)
+    RLEData()
+    {
+    }
+    RLEData(const uchar *d, uint l, uint o)
+        : _offset(o)
     {
         for (uint i = 0; i < l; i++) {
             append(d[i]);
@@ -51,7 +54,11 @@ private:
 class RLEMap : public QMap<RLEData, uint>
 {
 public:
-    RLEMap() : _counter(0), _offset(0) {}
+    RLEMap()
+        : _counter(0)
+        , _offset(0)
+    {
+    }
     uint insert(const uchar *d, uint l);
     QVector<const RLEData *> vector();
     void setBaseOffset(uint o)
@@ -74,7 +81,12 @@ public:
     bool writeImage(const QImage &);
 
 private:
-    enum { NORMAL, DITHERED, SCREEN, COLORMAP }; // colormap
+    enum {
+        NORMAL,
+        DITHERED,
+        SCREEN,
+        COLORMAP,
+    }; // colormap
     QIODevice *_dev;
     QDataStream _stream;
 
@@ -108,9 +120,9 @@ private:
     uchar intensity(uchar);
 };
 
-SGIImage::SGIImage(QIODevice *io) :
-    _starttab(nullptr),
-    _lengthtab(nullptr)
+SGIImage::SGIImage(QIODevice *io)
+    : _starttab(nullptr)
+    , _lengthtab(nullptr)
 {
     _dev = io;
     _stream.setDevice(_dev);
@@ -126,7 +138,8 @@ SGIImage::~SGIImage()
 
 bool SGIImage::getRow(uchar *dest)
 {
-    int n, i;
+    int n;
+    int i;
     if (!_rle) {
         for (i = 0; i < _xsize; i++) {
             if (_pos >= _data.end()) {
@@ -172,7 +185,8 @@ bool SGIImage::readData(QImage &img)
     quint32 *start = _starttab;
     QByteArray lguard(_xsize, 0);
     uchar *line = (uchar *)lguard.data();
-    unsigned x, y;
+    unsigned x;
+    unsigned y;
 
     if (!_rle) {
         _pos = _data.begin();
@@ -249,7 +263,7 @@ bool SGIImage::readImage(QImage &img)
     qint16 u16;
     qint32 u32;
 
-//     qDebug() << "reading rgb ";
+    //     qDebug() << "reading rgb ";
 
     // magic
     _stream >> u16;
@@ -259,42 +273,42 @@ bool SGIImage::readImage(QImage &img)
 
     // verbatim/rle
     _stream >> _rle;
-//     qDebug() << (_rle ? "RLE" : "verbatim");
+    //     qDebug() << (_rle ? "RLE" : "verbatim");
     if (_rle > 1) {
         return false;
     }
 
     // bytes per channel
     _stream >> _bpc;
-//     qDebug() << "bytes per channel: " << int(_bpc);
-    if (_bpc == 1)
+    //     qDebug() << "bytes per channel: " << int(_bpc);
+    if (_bpc == 1) {
         ;
-    else if (_bpc == 2) {
-//         qDebug() << "dropping least significant byte";
+    } else if (_bpc == 2) {
+        //         qDebug() << "dropping least significant byte";
     } else {
         return false;
     }
 
     // number of dimensions
     _stream >> _dim;
-//     qDebug() << "dimensions: " << _dim;
+    //     qDebug() << "dimensions: " << _dim;
     if (_dim < 1 || _dim > 3) {
         return false;
     }
 
     _stream >> _xsize >> _ysize >> _zsize >> _pixmin >> _pixmax >> u32;
-//     qDebug() << "x: " << _xsize;
-//     qDebug() << "y: " << _ysize;
-//     qDebug() << "z: " << _zsize;
+    //     qDebug() << "x: " << _xsize;
+    //     qDebug() << "y: " << _ysize;
+    //     qDebug() << "z: " << _zsize;
 
     // name
     _stream.readRawData(_imagename, 80);
     _imagename[79] = '\0';
 
     _stream >> _colormap;
-//     qDebug() << "colormap: " << _colormap;
+    //     qDebug() << "colormap: " << _colormap;
     if (_colormap != NORMAL) {
-        return false;    // only NORMAL supported
+        return false; // only NORMAL supported
     }
 
     for (int i = 0; i < 404; i++) {
@@ -302,7 +316,7 @@ bool SGIImage::readImage(QImage &img)
     }
 
     if (_dim == 1) {
-//         qDebug() << "1-dimensional images aren't supported yet";
+        //         qDebug() << "1-dimensional images aren't supported yet";
         return false;
     }
 
@@ -316,17 +330,19 @@ bool SGIImage::readImage(QImage &img)
         return false;
     }
 
-    if (_zsize == 0 )
+    if (_zsize == 0) {
         return false;
+    }
 
     if (_zsize == 2 || _zsize == 4) {
         img = img.convertToFormat(QImage::Format_ARGB32);
     } else if (_zsize > 4) {
-//         qDebug() << "using first 4 of " << _zsize << " channels";
+        //         qDebug() << "using first 4 of " << _zsize << " channels";
         // Only let this continue if it won't cause a int overflow later
         // this is most likely a broken file anyway
-        if (_ysize > std::numeric_limits<int>::max() / _zsize)
+        if (_ysize > std::numeric_limits<int>::max() / _zsize) {
             return false;
+        }
     }
 
     _numrows = _ysize * _zsize;
@@ -351,16 +367,18 @@ bool SGIImage::readImage(QImage &img)
     _data = _dev->readAll();
 
     // sanity check
-    if (_rle)
-        for (uint o = 0; o < _numrows; o++)
+    if (_rle) {
+        for (uint o = 0; o < _numrows; o++) {
             // don't change to greater-or-equal!
             if (_starttab[o] + _lengthtab[o] > (uint)_data.size()) {
-//                 qDebug() << "image corrupt (sanity check failed)";
+                //                 qDebug() << "image corrupt (sanity check failed)";
                 return false;
             }
+        }
+    }
 
     if (!readData(img)) {
-//         qDebug() << "image corrupt (incomplete scanline)";
+        //         qDebug() << "image corrupt (incomplete scanline)";
         return false;
     }
 
@@ -378,7 +396,8 @@ void RLEData::write(QDataStream &s)
 
 bool RLEData::operator<(const RLEData &b) const
 {
-    uchar ac, bc;
+    uchar ac;
+    uchar bc;
     for (int i = 0; i < qMin(size(), b.size()); i++) {
         ac = at(i);
         bc = b[i];
@@ -424,8 +443,13 @@ uchar SGIImage::intensity(uchar c)
 
 uint SGIImage::compact(uchar *d, uchar *s)
 {
-    uchar *dest = d, *src = s, patt, *t, *end = s + _xsize;
-    int i, n;
+    uchar *dest = d;
+    uchar *src = s;
+    uchar patt;
+    uchar *t;
+    uchar *end = s + _xsize;
+    int i;
+    int n;
     while (src < end) {
         for (n = 0, t = src; t + 2 < end && !(*t == t[1] && *t == t[2]); t++) {
             n++;
@@ -468,7 +492,8 @@ bool SGIImage::scanData(const QImage &img)
     uchar *line = (uchar *)lineguard.data();
     uchar *buf = (uchar *)bufguard.data();
     const QRgb *c;
-    unsigned x, y;
+    unsigned x;
+    unsigned y;
     uint len;
 
     for (y = 0; y < _ysize; y++) {
@@ -567,7 +592,7 @@ void SGIImage::writeHeader()
 void SGIImage::writeRle()
 {
     _rle = 1;
-//     qDebug() << "writing RLE data";
+    //     qDebug() << "writing RLE data";
     writeHeader();
     uint i;
 
@@ -590,11 +615,12 @@ void SGIImage::writeRle()
 void SGIImage::writeVerbatim(const QImage &img)
 {
     _rle = 0;
-//     qDebug() << "writing verbatim data";
+    //     qDebug() << "writing verbatim data";
     writeHeader();
 
     const QRgb *c;
-    unsigned x, y;
+    unsigned x;
+    unsigned y;
 
     for (y = 0; y < _ysize; y++) {
         c = reinterpret_cast<const QRgb *>(img.scanLine(_ysize - y - 1));
@@ -637,7 +663,7 @@ void SGIImage::writeVerbatim(const QImage &img)
 
 bool SGIImage::writeImage(const QImage &image)
 {
-//     qDebug() << "writing "; // TODO add filename
+    //     qDebug() << "writing "; // TODO add filename
     QImage img = image;
     if (img.allGray()) {
         _dim = 2, _zsize = 1;
@@ -651,13 +677,20 @@ bool SGIImage::writeImage(const QImage &image)
 
     img = img.convertToFormat(QImage::Format_RGB32);
     if (img.isNull()) {
-//         qDebug() << "can't convert image to depth 32";
+        //         qDebug() << "can't convert image to depth 32";
+        return false;
+    }
+
+    const int w = img.width();
+    const int h = img.height();
+
+    if (w > 65536 || h > 65536) {
         return false;
     }
 
     _bpc = 1;
-    _xsize = img.width();
-    _ysize = img.height();
+    _xsize = w;
+    _ysize = h;
     _pixmin = ~0u;
     _pixmax = 0;
     _colormap = NORMAL;
@@ -666,7 +699,7 @@ bool SGIImage::writeImage(const QImage &image)
     _rlemap.setBaseOffset(512 + _numrows * 2 * sizeof(quint32));
 
     if (!scanData(img)) {
-//         qDebug() << "this can't happen";
+        //         qDebug() << "this can't happen";
         return false;
     }
 
@@ -678,11 +711,11 @@ bool SGIImage::writeImage(const QImage &image)
         rle_size += _rlevector[i]->size();
     }
 
-//     qDebug() << "minimum intensity: " << _pixmin;
-//     qDebug() << "maximum intensity: " << _pixmax;
-//     qDebug() << "saved scanlines: " << _numrows - _rlemap.size();
-//     qDebug() << "total savings: " << (verbatim_size - rle_size) << " bytes";
-//     qDebug() << "compression: " << (rle_size * 100.0 / verbatim_size) << '%';
+    //     qDebug() << "minimum intensity: " << _pixmin;
+    //     qDebug() << "maximum intensity: " << _pixmax;
+    //     qDebug() << "saved scanlines: " << _numrows - _rlemap.size();
+    //     qDebug() << "total savings: " << (verbatim_size - rle_size) << " bytes";
+    //     qDebug() << "compression: " << (rle_size * 100.0 / verbatim_size) << '%';
 
     if (verbatim_size <= rle_size) {
         writeVerbatim(img);
@@ -746,8 +779,7 @@ bool RGBHandler::canRead(QIODevice *device)
 
 QImageIOPlugin::Capabilities RGBPlugin::capabilities(QIODevice *device, const QByteArray &format) const
 {
-    if (format == "rgb" || format ==  "rgba" ||
-            format ==  "bw" || format == "sgi") {
+    if (format == "rgb" || format == "rgba" || format == "bw" || format == "sgi") {
         return Capabilities(CanRead | CanWrite);
     }
     if (!format.isEmpty()) {

src/imageformats/rgb_p.h

@@ -33,4 +33,3 @@ public:
 };
 
 #endif // KIMG_RGB_P_H
-

src/imageformats/rle_p.h

@@ -8,8 +8,8 @@
 #ifndef KIMAGEFORMATS_RLE_P_H
 #define KIMAGEFORMATS_RLE_P_H
 
-#include <QDebug>
 #include <QDataStream>
+#include <QDebug>
 
 /**
  * The RLEVariant to use.
@@ -37,7 +37,7 @@ enum class RLEVariant {
      * of size 128, 130 of size 127, down to 255 of
      * size 2.
      */
-    PIC
+    PIC,
 };
 
 /**
@@ -64,12 +64,7 @@ enum class RLEVariant {
  *          into @p buf, @c false otherwise.
  */
 template<typename Item, typename Func1, typename Func2>
-static inline bool decodeRLEData(RLEVariant variant,
-                                 QDataStream &stream,
-                                 Item *dest,
-                                 quint32 length,
-                                 Func1 readData,
-                                 Func2 updateItem)
+static inline bool decodeRLEData(RLEVariant variant, QDataStream &stream, Item *dest, quint32 length, Func1 readData, Func2 updateItem)
 {
     unsigned offset = 0; // in dest
     bool is_msb = true; // only used for 16-bit PackBits, data is big-endian
@@ -154,7 +149,6 @@ static inline bool decodeRLEData(RLEVariant variant,
     return stream.status() == QDataStream::Ok;
 }
 
-
 /**
  * Encodes data in run-length encoding format.
  *
@@ -170,18 +164,10 @@ static inline bool decodeRLEData(RLEVariant variant,
  *                    and writes the item to the data stream.
  */
 template<typename Item, typename Func1, typename Func2>
-static inline void encodeRLEData(RLEVariant variant,
-                                 QDataStream &stream,
-		                 const Item *data,
-				 unsigned length,
-				 Func1 itemsEqual,
-				 Func2 writeItem)
+static inline void encodeRLEData(RLEVariant variant, QDataStream &stream, const Item *data, unsigned length, Func1 itemsEqual, Func2 writeItem)
 {
     unsigned offset = 0;
-    const unsigned maxEncodableChunk =
-        (variant == RLEVariant::PIC)
-        ? 65535u
-        : 128;
+    const unsigned maxEncodableChunk = (variant == RLEVariant::PIC) ? 65535u : 128;
     while (offset < length) {
         const Item *chunkStart = data + offset;
         unsigned maxChunk = qMin(length - offset, maxEncodableChunk);
@@ -220,10 +206,7 @@ static inline void encodeRLEData(RLEVariant variant,
             }
             chunkLength = 1;
             chunkEnd = chunkStart + 1;
-            while (chunkLength < maxChunk &&
-                    (chunkLength + 1u == maxChunk ||
-                     !itemsEqual(*chunkEnd, *(chunkEnd+1))))
-            {
+            while (chunkLength < maxChunk && (chunkLength + 1u == maxChunk || !itemsEqual(*chunkEnd, *(chunkEnd + 1)))) {
                 ++chunkEnd;
                 ++chunkLength;
             }

src/imageformats/tga.cpp

@@ -20,27 +20,26 @@
 
 #include <assert.h>
 
-#include <QImage>
 #include <QDataStream>
 #include <QDebug>
+#include <QImage>
 
 typedef quint32 uint;
 typedef quint16 ushort;
 typedef quint8 uchar;
 
-namespace   // Private.
+namespace // Private.
 {
-
 // Header format of saved files.
-uchar targaMagic[12] = { 0, 0, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0 };
+uchar targaMagic[12] = {0, 0, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0};
 
 enum TGAType {
-    TGA_TYPE_INDEXED        = 1,
-    TGA_TYPE_RGB            = 2,
-    TGA_TYPE_GREY           = 3,
-    TGA_TYPE_RLE_INDEXED    = 9,
-    TGA_TYPE_RLE_RGB        = 10,
-    TGA_TYPE_RLE_GREY       = 11
+    TGA_TYPE_INDEXED = 1,
+    TGA_TYPE_RGB = 2,
+    TGA_TYPE_GREY = 3,
+    TGA_TYPE_RLE_INDEXED = 9,
+    TGA_TYPE_RLE_RGB = 10,
+    TGA_TYPE_RLE_GREY = 11,
 };
 
 #define TGA_INTERLEAVE_MASK 0xc0
@@ -48,11 +47,11 @@ enum TGAType {
 #define TGA_INTERLEAVE_2WAY 0x40
 #define TGA_INTERLEAVE_4WAY 0x80
 
-#define TGA_ORIGIN_MASK     0x30
-#define TGA_ORIGIN_LEFT     0x00
-#define TGA_ORIGIN_RIGHT    0x10
-#define TGA_ORIGIN_LOWER    0x00
-#define TGA_ORIGIN_UPPER    0x20
+#define TGA_ORIGIN_MASK 0x30
+#define TGA_ORIGIN_LEFT 0x00
+#define TGA_ORIGIN_RIGHT 0x10
+#define TGA_ORIGIN_LOWER 0x00
+#define TGA_ORIGIN_UPPER 0x20
 
 /** Tga Header. */
 struct TgaHeader {
@@ -69,10 +68,12 @@ struct TgaHeader {
     uchar pixel_size;
     uchar flags;
 
-    enum { SIZE = 18 }; // const static int SIZE = 18;
+    enum {
+        SIZE = 18,
+    }; // const static int SIZE = 18;
 };
 
-static QDataStream &operator>> (QDataStream &s, TgaHeader &head)
+static QDataStream &operator>>(QDataStream &s, TgaHeader &head)
 {
     s >> head.id_length;
     s >> head.colormap_type;
@@ -88,30 +89,23 @@ static QDataStream &operator>> (QDataStream &s, TgaHeader &head)
     s >> head.flags;
     /*qDebug() << "id_length: " << head.id_length << " - colormap_type: " << head.colormap_type << " - image_type: " << head.image_type;
     qDebug() << "colormap_index: " << head.colormap_index << " - colormap_length: " << head.colormap_length << " - colormap_size: " << head.colormap_size;
-    qDebug() << "x_origin: " << head.x_origin << " - y_origin: " << head.y_origin << " - width:" << head.width << " - height:" << head.height << " - pixelsize: " << head.pixel_size << " - flags: " << head.flags;*/
+    qDebug() << "x_origin: " << head.x_origin << " - y_origin: " << head.y_origin << " - width:" << head.width << " - height:" << head.height << " - pixelsize:
+    " << head.pixel_size << " - flags: " << head.flags;*/
     return s;
 }
 
 static bool IsSupported(const TgaHeader &head)
 {
-    if (head.image_type != TGA_TYPE_INDEXED &&
-            head.image_type != TGA_TYPE_RGB &&
-            head.image_type != TGA_TYPE_GREY &&
-            head.image_type != TGA_TYPE_RLE_INDEXED &&
-            head.image_type != TGA_TYPE_RLE_RGB &&
-            head.image_type != TGA_TYPE_RLE_GREY) {
+    if (head.image_type != TGA_TYPE_INDEXED && head.image_type != TGA_TYPE_RGB && head.image_type != TGA_TYPE_GREY && head.image_type != TGA_TYPE_RLE_INDEXED
+        && head.image_type != TGA_TYPE_RLE_RGB && head.image_type != TGA_TYPE_RLE_GREY) {
         return false;
     }
-    if (head.image_type == TGA_TYPE_INDEXED ||
-            head.image_type == TGA_TYPE_RLE_INDEXED) {
+    if (head.image_type == TGA_TYPE_INDEXED || head.image_type == TGA_TYPE_RLE_INDEXED) {
         if (head.colormap_length > 256 || head.colormap_size != 24 || head.colormap_type != 1) {
             return false;
         }
     }
-    if (head.image_type == TGA_TYPE_RGB ||
-            head.image_type == TGA_TYPE_GREY ||
-            head.image_type == TGA_TYPE_RLE_RGB ||
-            head.image_type == TGA_TYPE_RLE_GREY) {
+    if (head.image_type == TGA_TYPE_RGB || head.image_type == TGA_TYPE_GREY || head.image_type == TGA_TYPE_RLE_RGB || head.image_type == TGA_TYPE_RLE_GREY) {
         if (head.colormap_type != 0) {
             return false;
         }
@@ -119,8 +113,7 @@ static bool IsSupported(const TgaHeader &head)
     if (head.width == 0 || head.height == 0) {
         return false;
     }
-    if (head.pixel_size != 8 && head.pixel_size != 16 &&
-            head.pixel_size != 24 && head.pixel_size != 32) {
+    if (head.pixel_size != 8 && head.pixel_size != 16 && head.pixel_size != 24 && head.pixel_size != 32) {
         return false;
     }
     return true;
@@ -138,12 +131,16 @@ struct TgaHeaderInfo {
     bool rgb;
     bool grey;
 
-    TgaHeaderInfo(const TgaHeader &tga) : rle(false), pal(false), rgb(false), grey(false)
+    TgaHeaderInfo(const TgaHeader &tga)
+        : rle(false)
+        , pal(false)
+        , rgb(false)
+        , grey(false)
     {
         switch (tga.image_type) {
         case TGA_TYPE_RLE_INDEXED:
             rle = true;
-        Q_FALLTHROUGH();
+            Q_FALLTHROUGH();
         // no break is intended!
         case TGA_TYPE_INDEXED:
             pal = true;
@@ -151,7 +148,7 @@ struct TgaHeaderInfo {
 
         case TGA_TYPE_RLE_RGB:
             rle = true;
-        Q_FALLTHROUGH();
+            Q_FALLTHROUGH();
         // no break is intended!
         case TGA_TYPE_RGB:
             rgb = true;
@@ -159,7 +156,7 @@ struct TgaHeaderInfo {
 
         case TGA_TYPE_RLE_GREY:
             rle = true;
-        Q_FALLTHROUGH();
+            Q_FALLTHROUGH();
         // no break is intended!
         case TGA_TYPE_GREY:
             grey = true;
@@ -202,7 +199,7 @@ static bool LoadTGA(QDataStream &s, const TgaHeader &tga, QImage &img)
     qint64 size = qint64(tga.width) * qint64(tga.height) * pixel_size;
 
     if (size < 1) {
-//          qDebug() << "This TGA file is broken with size " << size;
+        //          qDebug() << "This TGA file is broken with size " << size;
         return false;
     }
 
@@ -225,7 +222,7 @@ static bool LoadTGA(QDataStream &s, const TgaHeader &tga, QImage &img)
     }
 
     // Allocate image.
-    uchar *const image = reinterpret_cast<uchar*>(malloc(size));
+    uchar *const image = reinterpret_cast<uchar *>(malloc(size));
     if (!image) {
         return false;
     }
@@ -282,11 +279,11 @@ static bool LoadTGA(QDataStream &s, const TgaHeader &tga, QImage &img)
                     return false;
                 }
 
-
                 if ((uint)dataRead < count) {
                     const size_t toCopy = count - dataRead;
                     if (&dst[dataRead] + toCopy > imgEnd) {
-                        qWarning() << "Trying to write out of bounds!" << ptrdiff_t(image) << ptrdiff_t(&dst[dataRead]);;
+                        qWarning() << "Trying to write out of bounds!" << ptrdiff_t(image) << ptrdiff_t(&dst[dataRead]);
+                        ;
                         valid = false;
                         break;
                     }
@@ -314,7 +311,9 @@ static bool LoadTGA(QDataStream &s, const TgaHeader &tga, QImage &img)
     }
 
     // Convert image to internal format.
-    int y_start, y_step, y_end;
+    int y_start;
+    int y_step;
+    int y_end;
     if (tga.flags & TGA_ORIGIN_UPPER) {
         y_start = 0;
         y_step = 1;
@@ -328,7 +327,7 @@ static bool LoadTGA(QDataStream &s, const TgaHeader &tga, QImage &img)
     uchar *src = image;
 
     for (int y = y_start; y != y_end; y += y_step) {
-        QRgb *scanline = (QRgb *) img.scanLine(y);
+        QRgb *scanline = (QRgb *)img.scanLine(y);
 
         if (info.pal) {
             // Paletted.
@@ -389,7 +388,7 @@ bool TGAHandler::canRead() const
 
 bool TGAHandler::read(QImage *outImage)
 {
-    //qDebug() << "Loading TGA file!";
+    // qDebug() << "Loading TGA file!";
 
     QDataStream s(device());
     s.setByteOrder(QDataStream::LittleEndian);
@@ -401,13 +400,13 @@ bool TGAHandler::read(QImage *outImage)
 
     // Check image file format.
     if (s.atEnd()) {
-//         qDebug() << "This TGA file is not valid.";
+        //         qDebug() << "This TGA file is not valid.";
         return false;
     }
 
     // Check supported file types.
     if (!IsSupported(tga)) {
-//         qDebug() << "This TGA file is not supported.";
+        //         qDebug() << "This TGA file is not supported.";
         return false;
     }
 
@@ -415,7 +414,7 @@ bool TGAHandler::read(QImage *outImage)
     bool result = LoadTGA(s, tga, img);
 
     if (result == false) {
-//         qDebug() << "Error loading TGA file.";
+        //         qDebug() << "Error loading TGA file.";
         return false;
     }
 
@@ -435,12 +434,12 @@ bool TGAHandler::write(const QImage &image)
     }
 
     // write header
-    s << quint16(img.width());   // width
-    s << quint16(img.height());   // height
-    s << quint8(hasAlpha ? 32 : 24);   // depth (24 bit RGB + 8 bit alpha)
-    s << quint8(hasAlpha ? 0x24 : 0x20);   // top left image (0x20) + 8 bit alpha (0x4)
+    s << quint16(img.width()); // width
+    s << quint16(img.height()); // height
+    s << quint8(hasAlpha ? 32 : 24); // depth (24 bit RGB + 8 bit alpha)
+    s << quint8(hasAlpha ? 0x24 : 0x20); // top left image (0x20) + 8 bit alpha (0x4)
 
-    for (int y = 0; y < img.height(); y++)
+    for (int y = 0; y < img.height(); y++) {
         for (int x = 0; x < img.width(); x++) {
             const QRgb color = img.pixel(x, y);
             s << quint8(qBlue(color));
@@ -450,6 +449,7 @@ bool TGAHandler::write(const QImage &image)
                 s << quint8(qAlpha(color));
             }
         }
+    }
 
     return true;
 }

tests/CMakeLists.txt

@@ -5,7 +5,7 @@ include(ECMMarkAsTest)
 macro(kimageformats_executable_tests)
     foreach(_testname ${ARGN})
         add_executable(${_testname} ${_testname}.cpp)
-        target_link_libraries(${_testname} Qt5::Gui)
+        target_link_libraries(${_testname} Qt${QT_MAJOR_VERSION}::Gui)
         ecm_mark_as_test(${_testname})
     endforeach(_testname)
 endmacro()

tests/format-enum.h

@@ -7,8 +7,8 @@
 #ifndef FORMAT_ENUM_H
 #define FORMAT_ENUM_H
 
-#include <QMetaEnum>
 #include <QImage>
+#include <QMetaEnum>
 
 QImage::Format formatFromString(const QString &str)
 {

tests/imageconverter.cpp

@@ -27,21 +27,20 @@ int main(int argc, char **argv)
     parser.addVersionOption();
     parser.addPositionalArgument(QStringLiteral("in"), QStringLiteral("input image file"));
     parser.addPositionalArgument(QStringLiteral("out"), QStringLiteral("output image file"));
-    QCommandLineOption informat(
-        QStringList() << QStringLiteral("i") << QStringLiteral("informat"),
-        QStringLiteral("Image format for input file"),
-        QStringLiteral("format"));
+    QCommandLineOption informat(QStringList() << QStringLiteral("i") << QStringLiteral("informat"),
+                                QStringLiteral("Image format for input file"),
+                                QStringLiteral("format"));
     parser.addOption(informat);
-    QCommandLineOption outformat(
-        QStringList() << QStringLiteral("o") << QStringLiteral("outformat"),
-        QStringLiteral("Image format for output file"),
-        QStringLiteral("format"));
+    QCommandLineOption outformat(QStringList() << QStringLiteral("o") << QStringLiteral("outformat"),
+                                 QStringLiteral("Image format for output file"),
+                                 QStringLiteral("format"));
     parser.addOption(outformat);
-    QCommandLineOption listformats(
-        QStringList() << QStringLiteral("l") << QStringLiteral("list"),
-        QStringLiteral("List supported image formats"));
+    QCommandLineOption listformats(QStringList() << QStringLiteral("l") << QStringLiteral("list"), QStringLiteral("List supported image formats"));
     parser.addOption(listformats);
 
+    QCommandLineOption listmimes(QStringList() << QStringLiteral("m") << QStringLiteral("listmime"), QStringLiteral("List supported image mime formats"));
+    parser.addOption(listmimes);
+
     parser.process(app);
 
     const QStringList files = parser.positionalArguments();
@@ -61,6 +60,21 @@ int main(int argc, char **argv)
         return 0;
     }
 
+    if (parser.isSet(listmimes)) {
+        QTextStream out(stdout);
+        out << "Input mime formats:\n";
+        const auto lstReaderSupportedMimes = QImageReader::supportedMimeTypes();
+        for (const QByteArray &fmt : lstReaderSupportedMimes) {
+            out << "  " << fmt << '\n';
+        }
+        out << "Output mime formats:\n";
+        const auto lstWriterSupportedMimes = QImageWriter::supportedMimeTypes();
+        for (const QByteArray &fmt : lstWriterSupportedMimes) {
+            out << "  " << fmt << '\n';
+        }
+        return 0;
+    }
+
     if (files.count() != 2) {
         QTextStream(stdout) << "Must provide exactly two files\n";
         parser.showHelp(1);

tests/imagedump.cpp

@@ -10,10 +10,10 @@
 #include <QCommandLineParser>
 #include <QCoreApplication>
 #include <QDebug>
-#include <QImageReader>
 #include <QFile>
-#include <QMetaObject>
+#include <QImageReader>
 #include <QMetaEnum>
+#include <QMetaObject>
 #include <QTextStream>
 
 #include "format-enum.h"
@@ -31,27 +31,22 @@ int main(int argc, char **argv)
     parser.addVersionOption();
     parser.addPositionalArgument(QStringLiteral("image"), QStringLiteral("image file"));
     parser.addPositionalArgument(QStringLiteral("datafile"), QStringLiteral("file QImage data should be written to"));
-    QCommandLineOption informat(
-        QStringList() << QStringLiteral("f") << QStringLiteral("file-format"),
-        QStringLiteral("Image file format"),
-        QStringLiteral("format"));
+    QCommandLineOption informat(QStringList() << QStringLiteral("f") << QStringLiteral("file-format"),
+                                QStringLiteral("Image file format"),
+                                QStringLiteral("format"));
     parser.addOption(informat);
-    QCommandLineOption qimgformat(
-        QStringList() << QStringLiteral("q") << QStringLiteral("qimage-format"),
-        QStringLiteral("QImage data format"),
-        QStringLiteral("format"));
+    QCommandLineOption qimgformat(QStringList() << QStringLiteral("q") << QStringLiteral("qimage-format"),
+                                  QStringLiteral("QImage data format"),
+                                  QStringLiteral("format"));
     parser.addOption(qimgformat);
-    QCommandLineOption listformats(
-        QStringList() << QStringLiteral("l") << QStringLiteral("list-file-formats"),
-        QStringLiteral("List supported image file formats"));
+    QCommandLineOption listformats(QStringList() << QStringLiteral("l") << QStringLiteral("list-file-formats"),
+                                   QStringLiteral("List supported image file formats"));
     parser.addOption(listformats);
-    QCommandLineOption listmimetypes(
-        QStringList() << QStringLiteral("m") << QStringLiteral("list-mime-types"),
-        QStringLiteral("List supported image mime types"));
+    QCommandLineOption listmimetypes(QStringList() << QStringLiteral("m") << QStringLiteral("list-mime-types"),
+                                     QStringLiteral("List supported image mime types"));
     parser.addOption(listmimetypes);
-    QCommandLineOption listqformats(
-        QStringList() << QStringLiteral("p") << QStringLiteral("list-qimage-formats"),
-        QStringLiteral("List supported QImage data formats"));
+    QCommandLineOption listqformats(QStringList() << QStringLiteral("p") << QStringLiteral("list-qimage-formats"),
+                                    QStringLiteral("List supported QImage data formats"));
     parser.addOption(listqformats);
 
     parser.process(app);
@@ -93,35 +88,29 @@ int main(int argc, char **argv)
     QImageReader reader(files.at(0), parser.value(informat).toLatin1());
     QImage img = reader.read();
     if (img.isNull()) {
-        QTextStream(stderr) << "Could not read image: "
-                            << reader.errorString() << '\n';
+        QTextStream(stderr) << "Could not read image: " << reader.errorString() << '\n';
         return 2;
     }
 
     QFile output(files.at(1));
     if (!output.open(QIODevice::WriteOnly)) {
-        QTextStream(stderr) << "Could not open " << files.at(1)
-                            << " for writing: "
-                            << output.errorString() << '\n';
+        QTextStream(stderr) << "Could not open " << files.at(1) << " for writing: " << output.errorString() << '\n';
         return 3;
     }
     if (parser.isSet(qimgformat)) {
         QImage::Format qformat = formatFromString(parser.value(qimgformat));
         if (qformat == QImage::Format_Invalid) {
-            QTextStream(stderr) << "Unknown QImage data format "
-                                << parser.value(qimgformat) << '\n';
+            QTextStream(stderr) << "Unknown QImage data format " << parser.value(qimgformat) << '\n';
             return 4;
         }
         img = img.convertToFormat(qformat);
     }
     qint64 written = output.write(reinterpret_cast<const char *>(img.bits()), img.sizeInBytes());
     if (written != img.sizeInBytes()) {
-        QTextStream(stderr) << "Could not write image data to " << files.at(1)
-                            << ":" << output.errorString() << "\n";
+        QTextStream(stderr) << "Could not write image data to " << files.at(1) << ":" << output.errorString() << "\n";
         return 5;
     }
-    QTextStream(stdout) << "Created " << files.at(1) << " with data format "
-                        << formatToString(img.format()) << "\n";
+    QTextStream(stdout) << "Created " << files.at(1) << " with data format " << formatToString(img.format()) << "\n";
 
     return 0;
 }